We checked 7 multidisciplinary journals on Friday, December 05, 2025 using the Crossref API. For the period November 28 to December 04, we retrieved 12 new paper(s) in 5 journal(s).

Nature

GPT-4o mini: Non-social science research article
Satellite megaconstellations will threaten space-based astronomy
Alejandro S. Borlaff, Pamela M. Marcum, Steve B. Howell
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GPT-4o mini: Non-social science research article
Bulk superconductivity up to 96 K in pressurized nickelate single crystals
Feiyu Li, Zhenfang Xing, Di Peng, Jie Dou, Ning Guo, Liang Ma, Yulin Zhang, Lingzhen Wang, Jun Luo, Jie Yang, Jian Zhang, Tieyan Chang, Yu-Sheng Chen, Weizhao Cai, Jinguang Cheng, Yuzhu Wang, Yuxin Liu, Tao Luo, Naohisa Hirao, Takahiro Matsuoka, Hirokazu Kadobayashi, Zhidan Zeng, Qiang Zheng, Rui Zhou, Qiaoshi Zeng, Xutang Tao, Junjie Zhang
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GPT-4o mini: Non-social science research article
Author Correction: The first-principles phase diagram of monolayer nanoconfined water
Venkat Kapil, Christoph Schran, Andrea Zen, Ji Chen, Chris J. Pickard, Angelos Michaelides
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GPT-4o mini: Non-social science research article
Author Correction: Video‐rate tunable colour electronic paper with human resolution
Ade Satria Saloka Santosa, Yu-Wei Chang, Andreas B. Dahlin, Lars Österlund, Giovanni Volpe, Kunli Xiong
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GPT-4o mini: Non-social science research article
Correlates of HIV-1 control after combination immunotherapy
M. J. Peluso, D. A. Sandel, A. N. Deitchman, S. J. Kim, T. Dalhuisen, H. P. Tummala, R. TibĂșrcio, L. Zemelko, G. M. Borgo, S. S. Singh, K. Schwartz, M. Deswal, M. C. Williams, R. Hoh, M. Shimoda, S. Narpala, L. Serebryannyy, M. Khalili, E. Vendrame, D. SenGupta, L. S. Whitmore, J. Tisoncik-Go, M. Gale, R. A. Koup, J. I. Mullins, B. K. Felber, G. N. Pavlakis, J. D. Reeves, C. J. Petropoulos, D. V. Glidden, M. H. Spitzer, L. Gama, M. Caskey, M. C. Nussenzweig, K. W. Chew, T. J. Henrich, S. A. Yukl, L. B. Cohn, S. G. Deeks, R. L. Rutishauser
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GPT-4o mini: Non-social science research article
Computational design of metallohydrolases
Donghyo Kim, Seth M. Woodbury, Woody Ahern, Doug Tischer, Alex Kang, Emily Joyce, Asim K. Bera, Nikita Hanikel, Saman Salike, Rohith Krishna, Jason Yim, Samuel J. Pellock, Anna Lauko, Indrek Kalvet, Donald Hilvert, David Baker
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GPT-4o mini: Non-social science research article
Retraction Note: The economic commitment of climate change
Maximilian Kotz, Anders Levermann, Leonie Wenz
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GPT-4o mini: Non-social science research article
Author Correction: Diversity-oriented synthesis yields novel multistage antimalarial inhibitors
Nobutaka Kato, Eamon Comer, Tomoyo Sakata-Kato, Arvind Sharma, Manmohan Sharma, Micah Maetani, Jessica Bastien, Nicolas M. Brancucci, Joshua A. Bittker, Victoria Corey, David Clarke, Emily R. Derbyshire, Gillian L. Dornan, Sandra Duffy, Sean Eckley, Maurice A. Itoe, Karin M. J. Koolen, Timothy A. Lewis, Ping S. Lui, Amanda K. Lukens, Emily Lund, Sandra March, Elamaran Meibalan, Bennett C. Meier, Jacob A. McPhail, Branko Mitasev, Eli L. Moss, Morgane Sayes, Yvonne Van Gessel, Mathias J. Wawer, Takashi Yoshinaga, Anne-Marie Zeeman, Vicky M. Avery, Sangeeta N. Bhatia, John E. Burke, Flaminia Catteruccia, Jon C. Clardy, Paul A. Clemons, Koen J. Dechering, Jeremy R. Duvall, Michael A. Foley, Fabian Gusovsky, Clemens H. M. Kocken, Matthias Marti, Marshall L. Morningstar, Benito Munoz, Daniel E. Neafsey, Amit Sharma, Elizabeth A. Winzeler, Dyann F. Wirth, Christina A. Scherer, Stuart L. Schreiber
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GPT-4o mini: Non-social science research article
A place-based assessment of biodiversity intactness in sub-Saharan Africa
Hayley S. Clements, Reinette Biggs, Alta De Vos, Emmanuel Do Linh San, Gareth P. Hempson, Birthe Linden, Bryan Maritz, Ara Monadjem, Chevonne Reynolds, Frances Siebert, Nicola Stevens, Matthew Child, Enrico Di Minin, Karen J. Esler, Maike Hamann, Ty Loft, Belinda Reyers, Odirilwe Selomane, Geethen Singh, Andrew L. Skowno
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Maintaining biodiversity is central to the sustainable development agenda 1 . However, a lack of context-specific biodiversity information at policy-relevant scales has posed major limitations to decision-makers 2,3 . To address this challenge, we undertook a comprehensive assessment of the biodiversity intactness of sub-Saharan Africa 4 using place-based knowledge of 200 African biodiversity experts 5 . We estimate that the region has on average lost 24% of its pre-colonial and pre-industrial faunal and floral population abundances, ranging from losses of <20% for disturbance-adapted herbaceous plants to 80% for some large mammals. Rwanda and Nigeria are the least intact (<55%), whereas Namibia and Botswana are the most intact (>85%). Notably, most remaining organisms occur in unprotected, relatively untransformed rangelands and natural forests. Losses in biodiversity intactness in the worst-affected biomes are driven by land transformation into cropland in grasslands and fynbos (Mediterranean-type ecosystems), by non-agricultural degradation in forests and by a combination of the two drivers in savannas. This assessment provides decision-makers with multifaceted, contextually appropriate and policy-relevant information on the state of biodiversity in an understudied region of the world. Our approach could be used in other regions, including better-studied localities, to integrate contextual, place-based knowledge into multiscale assessments of biodiversity status and impacts.
GPT-4o mini: Non-social science research article
Editorial Expression of Concern: Cytokinesis failure generating tetraploids promotes tumorigenesis in p53-null cells
Takeshi Fujiwara, Madhavi Bandi, Masayuki Nitta, Elena V. Ivanova, Roderick T. Bronson, David Pellman
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GPT-4o mini: Non-social science research article
Modelling late gastrulation in stem cell-derived monkey embryo models
Jie Li, Jie Li, Jing Cao, ShenShen Shang, Liansheng Zhang, Fei Gao, Jiqiang Fu, Hongyu Chen, Guizhong Cui, Haoyuan Wu, Xiaolong Wang, Alfonso Martinez-Arias, Qiang Sun, Zhen Liu
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GPT-4o mini: Non-social science research article
Dated gene duplications elucidate the evolutionary assembly of eukaryotes
Christopher J. Kay, Anja Spang, Gergely J. SzöllƑsi, Davide Pisani, Tom A. Williams, Philip C. J. Donoghue
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The origin of eukaryotes was a formative but poorly understood event in the history of life. Current hypotheses of eukaryogenesis differ principally in the timing of mitochondrial endosymbiosis relative to the acquisition of other eukaryote novelties 1 . Discriminating among these hypotheses has been challenging, because there are no living lineages representative of intermediate steps within eukaryogenesis. However, many eukaryotic cell functions are contingent on genes that emerged from duplication events during eukaryogenesis 2,3 . Consequently, the timescale of these duplications can provide insights into the sequence of steps in the evolutionary assembly of the eukaryotic cell. Here we show, using a relaxed molecular clock 4 , that the process of eukaryogenesis spanned the Mesoarchaean to late Palaeoproterozoic eras. Within these constraints, we dated the timing of these gene duplications, revealing that the eukaryotic host cell already had complex cellular features before mitochondrial endosymbiosis, including an elaborated cytoskeleton, membrane trafficking, endomembrane, phagocytotic machinery and a nucleus, all between 3.0 and 2.25 billion years ago, after which mitochondrial endosymbiosis occurred. Our results enable us to reject mitochondrion-early scenarios of eukaryogenesis 5 , instead supporting a complexified-archaean, late-mitochondrion sequence for the assembly of eukaryote characteristics. Our inference of a complex archaeal host cell is compatible with hypotheses on the adaptive benefits of syntrophy 6,7 in oceans that would have remained largely anoxic for more than a billion years 8,9 .
GPT-4o mini: Non-social science research article
Search for light sterile neutrinos with two neutrino beams at MicroBooNE
character(0), P. Abratenko, D. Andrade Aldana, L. Arellano, J. Asaadi, A. Ashkenazi, S. Balasubramanian, B. Baller, A. Barnard, G. Barr, D. Barrow, J. Barrow, V. Basque, J. Bateman, O. Benevides Rodrigues, S. Berkman, A. Bhat, M. Bhattacharya, M. Bishai, A. Blake, B. Bogart, T. Bolton, M. B. Brunetti, L. Camilleri, D. Caratelli, F. Cavanna, G. Cerati, A. Chappell, Y. Chen, J. M. Conrad, M. Convery, L. Cooper-Troendle, J. I. Crespo-Anadón, R. Cross, M. Del Tutto, S. R. Dennis, P. Detje, R. Diurba, Z. Djurcic, K. Duffy, S. Dytman, B. Eberly, P. Englezos, A. Ereditato, J. J. Evans, C. Fang, B. T. Fleming, W. Foreman, D. Franco, A. P. Furmanski, F. Gao, D. Garcia-Gamez, S. Gardiner, G. Ge, S. Gollapinni, E. Gramellini, P. Green, H. Greenlee, L. Gu, W. Gu, R. Guenette, P. Guzowski, L. Hagaman, M. D. Handley, O. Hen, C. Hilgenberg, G. A. Horton-Smith, A. Hussain, B. Irwin, M. S. Ismail, C. James, X. Ji, J. H. Jo, R. A. Johnson, Y.-J. Jwa, D. Kalra, G. Karagiorgi, W. Ketchum, M. Kirby, T. Kobilarcik, N. Lane, J.-Y. Li, Y. Li, K. Lin, B. R. Littlejohn, L. Liu, W. C. Louis, X. Luo, T. Mahmud, C. Mariani, D. Marsden, J. Marshall, N. Martinez, D. A. Martinez Caicedo, S. Martynenko, A. Mastbaum, I. Mawby, N. McConkey, L. Mellet, J. Mendez, J. Micallef, A. Mogan, T. Mohayai, M. Mooney, A. F. Moor, C. D. Moore, L. Mora Lepin, M. M. Moudgalya, S. Mulleriababu, D. Naples, A. Navrer-Agasson, N. Nayak, M. Nebot-Guinot, C. Nguyen, J. Nowak, N. Oza, O. Palamara, N. Pallat, V. Paolone, A. Papadopoulou, V. Papavassiliou, H. B. Parkinson, S. F. Pate, N. Patel, Z. Pavlovic, E. Piasetzky, K. Pletcher, I. Pophale, X. Qian, J. L. Raaf, V. Radeka, A. Rafique, M. Reggiani-Guzzo, J. Rodriguez Rondon, M. Rosenberg, M. Ross-Lonergan, I. Safa, D. W. Schmitz, A. Schukraft, W. Seligman, M. H. Shaevitz, R. Sharankova, J. Shi, E. L. Snider, M. Soderberg, S. Söldner-Rembold, J. Spitz, M. Stancari, J. St. John, T. Strauss, A. M. Szelc, N. Taniuchi, K. Terao, C. Thorpe, D. Torbunov, D. Totani, M. Toups, A. Trettin, Y.-T. Tsai, J. Tyler, M. A. Uchida, T. Usher, B. Viren, J. Wang, M. Weber, H. Wei, A. J. White, S. Wolbers, T. Wongjirad, K. Wresilo, W. Wu, E. Yandel, T. Yang, L. E. Yates, H. W. Yu, G. P. Zeller, J. Zennamo, C. Zhang
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The existence of three distinct neutrino flavours, Îœ e , Îœ ÎŒ and Îœ τ , is a central tenet of the Standard Model of particle physics 1,2 . Quantum-mechanical interference can allow a neutrino of one initial flavour to be detected sometime later as a different flavour, a process called neutrino oscillation. Several anomalous observations inconsistent with this three-flavour picture have motivated the hypothesis that an additional neutrino state exists, which does not interact directly with matter, termed as ‘sterile’ neutrino, Îœ s (refs. 3–9 ). This includes anomalous observations from the Liquid Scintillator Neutrino Detector (LSND) 3 experiment and Mini-Booster Neutrino Experiment (MiniBooNE) 4,5 , consistent with Îœ ÎŒ → Îœ e transitions at a distance inconsistent with the three-neutrino picture. Here we use data obtained from the MicroBooNE liquid-argon time projection chamber 10 in two accelerator neutrino beams to exclude the single light sterile neutrino interpretation of the LSND and MiniBooNE anomalies at the 95% confidence level (CL). Moreover, we rule out a notable portion of the parameter space that could explain the gallium anomaly 6–8 . This is one of the first measurements to use two accelerator neutrino beams to break a degeneracy between Îœ e appearance and disappearance, which would otherwise weaken the sensitivity to the sterile neutrino hypothesis. We find no evidence for either Îœ ÎŒ → Îœ e flavour transitions or Îœ e disappearance that would indicate non-standard flavour oscillations. Our results indicate that previous anomalous observations consistent with Îœ ÎŒ → Îœ e transitions cannot be explained by introducing a single sterile neutrino state.
GPT-4o mini: Non-social science research article
Sustained HIV-1 remission after heterozygous CCR5Δ32 stem cell transplantation
Christian Gaebler, Samad Kor, Kristina Allers, Michela Perotti, David Mwangi, Karolin Meixenberger, Kirsten Hanke, Timo Trenkner, Tom Kraus, Yequin Sha, Carmen Arentowicz, Stanley Odidika, Nikolai Grahn, Rachel Scheck, Naomi Perkins, Marion Pardons, Vanessa Igbokwe, Victor Corman, Thomas Burmeister, Olga Blau, GĂŒlĂŒstan SĂŒrĂŒcĂŒ, Axel Pruß, Christian G. Schneider, Gerd Klausen, JĂŒrgen Sauter, Florian Klein, Leif E. Sander, Jörg Hofmann, Lam Vuong, Lars Bullinger, Livius Penter, Henning Gruell, Daniel B. Reeves, Philipp Schommers, Angelique Hoelzemer, Martin Obermeier, Igor W. Blau, Thomas Schneider, Olaf Penack
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GPT-4o mini: Non-social science research article
Sterile-neutrino search based on 259 days of KATRIN data
character(0), H. Acharya, M. Aker, D. Batzler, A. Beglarian, J. Beisenkötter, M. Biassoni, B. Bieringer, Y. Biondi, M. Böttcher, B. Bornschein, L. Bornschein, M. Carminati, A. Chatrabhuti, S. Chilingaryan, D. DĂ­az Barrero, B. A. Daniel, M. Descher, O. Dragoun, G. Drexlin, F. Edzards, K. Eitel, E. Ellinger, R. Engel, S. Enomoto, L. Fallböhmer, A. Felden, C. Fengler, C. Fiorini, J. A. Formaggio, C. Forstner, F. M. FrĂ€nkle, G. Gagliardi, K. Gauda, A. S. Gavin, W. Gil, F. GlĂŒck, R. Grössle, T. Höhn, K. Habib, V. Hannen, L. Haßelmann, K. Helbing, H. Henke, S. Heyns, R. Hiller, D. Hillesheimer, D. Hinz, A. Jansen, C. Köhler, K. Khosonthongkee, J. Kohpeiß, L. Köllenberger, A. Kopmann, N. Kovač, L. La Cascio, L. Laschinger, T. Lasserre, J. Lauer, T.-L. Le, O. Lebeda, B. Lehnert, A. Lokhov, M. Machatschek, A. Marsteller, E. L. Martin, K. McMichael, C. Melzer, L. E. Mettler, S. Mertens, S. Mohanty, J. Mostafa, I. MĂŒller, A. Nava, H. Neumann, S. Niemes, I. Nutini, A. Onillon, D. S. Parno, M. Pavan, U. Pinsook, J. PlĂ¶ĂŸner, A. W. P. Poon, J. M. L. Poyato, F. Priester, J. RĂĄliĆĄ, M. Röllig, S. Ramachandran, R. G. H. Robertson, C. Rodenbeck, R. Sack, A. Saenz, R. Salomon, J. SchĂŒrmann, P. SchĂ€fer, A.-K. SchĂŒtz, M. Schlösser, L. SchlĂŒter, S. Schneidewind, U. Schnurr, A. Schwemmer, A. Schwenck, M. Ć efčík, J. Seeyangnok, D. Siegmann, F. Simon, J. Songwadhana, F. Spanier, D. Spreng, W. Sreethawong, M. Steidl, J. Ć torek, X. Stribl, M. Sturm, N. Suwonjandee, N. T. Jerome, H. H. H. Telle, T. ThĂŒmmler, L. A. Thorne, N. Titov, I. Tkachev, K. Trost, K. Urban, D. VĂ©nos, K. Valerius, S. WĂŒstling, C. Weinheimer, S. Welte, J. Wendel, C. Wiesinger, J. F. Wilkerson, J. Wolf, J. Wydra, W. Xu, S. Zadorozhny, G. Zeller
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Neutrinos are the most abundant fundamental matter particles in the Universe and play a crucial part in particle physics and cosmology. Neutrino oscillation, discovered about 25 years ago, shows that the three known species mix with each other. Anomalous results from reactor and radioactive-source experiments 1 suggest a possible fourth neutrino state, the sterile neutrino, which does not interact through the weak force. The Karlsruhe Tritium Neutrino (KATRIN) experiment 2 , primarily designed to measure the neutrino mass using tritium ÎČ-decay, also searches for sterile neutrinos suggested by these anomalies. A sterile-neutrino signal would appear as a distortion in the ÎČ-decay energy spectrum, characterized by a discontinuity in curvature (kink) related to the sterile-neutrino mass. This signature, which depends only on the shape of the spectrum rather than its absolute normalization, offers a robust, complementary approach to reactor experiments. Here we report the analysis of the energy spectrum of 36 million tritium ÎČ-decay electrons recorded in 259 measurement days within the last 40 eV below the endpoint. The results exclude a substantial part of the parameter space suggested by the gallium anomaly and challenge the Neutrino-4 claim. Together with other neutrino-disappearance experiments, KATRIN probes sterile-to-active mass splittings from a fraction of an eV 2 to several hundred eV 2 , excluding light sterile neutrinos with mixing angles above a few per cent.
GPT-4o mini: Non-social science research article
Author Correction: Cleavage of RIPK1 by caspase-8 is crucial for limiting apoptosis and necroptosis
Kim Newton, Katherine E. Wickliffe, Debra L. Dugger, Allie Maltzman, Merone Roose-Girma, Monika Dohse, LĂĄszlĂł KƑmƱves, Joshua D. Webster, Vishva M. Dixit
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GPT-4o mini: Non-social science research article
Homo sapiens-specific evolution unveiled by ancient southern African genomes
Mattias Jakobsson, Carolina Bernhardsson, James McKenna, Nina Hollfelder, Mario Vicente, Hanna Edlund, Alexandra Coutinho, Per Sjödin, James Brink, Bernhard Zipfel, Helena Malmström, Marlize Lombard, Carina M. Schlebusch
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Homo sapiens evolved hundreds of thousands of years ago in Africa, later spreading across the globe 1 , but the early evolutionary process is debated 2–6 . Here we present whole-genome sequencing data for 28 ancient southern African individuals, including six individuals with 25× to 7.2× genome coverage, dated to between 10,200 and 150 calibrated years before present (cal. bp) . All ancient southern Africans dated to more than 1,400 cal. bp show a genetic make-up that is outside the range of genetic variation in modern-day humans (including southern African Khoe-San people, although some retain up to 80% ancient southern African ancestry), manifesting in a large fraction of Homo sapiens -specific variants that are unique to ancient southern Africans. Homo sapiens -specific variants at amino acid-altering sites fixed for all humans—which are likely to have evolved rapidly on the Homo sapiens branch—were enriched for genes associated with kidney function. Some Homo sapiens -specific variants fixed in ancient southern Africans—which are likely to have adapted rapidly on the southern African branch—were enriched for genes associated with protection against ultraviolet light. The ancient southern Africans show little spatiotemporal stratification for 9,000 years, consistent with a large, stable Holocene population transcending archaeological phases. While southern Africa served as a long-standing geographical refugium, there is outward gene flow over 8,000 years ago; however, inward gene flow manifests only after around 1,400 years ago. The ancient genomes reported here are therefore key to the evolution of Homo sapiens , and are important for advancing our understanding of human genomic variation.
GPT-4o mini: Non-social science research article
Determination of the spin and parity of all-charm tetraquarks
character(0), A. Hayrapetyan, V. Makarenko, A. Tumasyan, W. Adam, J. W. Andrejkovic, L. Benato, T. Bergauer, M. Dragicevic, C. Giordano, P. S. Hussain, M. Jeitler, N. Krammer, A. Li, D. Liko, M. Matthewman, I. Mikulec, J. Schieck, R. Schöfbeck, D. Schwarz, M. Shooshtari, M. Sonawane, W. Waltenberger, C.-E. Wulz, T. Janssen, H. Kwon, D. Ocampo Henao, T. Van Laer, P. Van Mechelen, J. Bierkens, N. Breugelmans, J. D’Hondt, S. Dansana, A. De Moor, M. Delcourt, F. Heyen, Y. Hong, P. Kashko, S. Lowette, I. Makarenko, D. MĂŒller, J. Song, S. Tavernier, M. Tytgat, G. P. Van Onsem, S. Van Putte, D. Vannerom, B. Bilin, B. Clerbaux, A. K. Das, I. De Bruyn, G. De Lentdecker, H. Evard, L. Favart, P. Gianneios, A. Khalilzadeh, F. A. Khan, A. Malara, M. A. Shahzad, L. Thomas, M. Vanden Bemden, C. Vander Velde, P. Vanlaer, F. Zhang, M. De Coen, D. Dobur, G. Gokbulut, J. Knolle, L. Lambrecht, D. Marckx, K. Skovpen, N. Van Den Bossche, J. van der Linden, J. Vandenbroeck, L. Wezenbeek, S. Bein, A. Benecke, A. Bethani, G. Bruno, A. Cappati, J. De Favereau De Jeneret, C. Delaere, A. Giammanco, A. O. Guzel, V. Lemaitre, J. Lidrych, P. Malek, P. Mastrapasqua, S. Turkcapar, G. A. Alves, M. Barroso Ferreira Filho, E. Coelho, C. Hensel, T. Menezes De Oliveira, C. Mora Herrera, P. Rebello Teles, M. Soeiro, E. J. Tonelli Manganote, A. Vilela Pereira, W. L. AldĂĄ JĂșnior, H. Brandao Malbouisson, W. Carvalho, J. Chinellato, M. Costa Reis, E. M. Da Costa, G. G. Da Silveira, D. De Jesus Damiao, S. Fonseca De Souza, R. Gomes De Souza, S. S. Jesus, T. Laux Kuhn, M. Macedo, K. Mota Amarilo, L. Mundim, H. Nogima, J. P. Pinheiro, A. Santoro, A. Sznajder, M. Thiel, F. Torres Da Silva De Araujo, C. A. Bernardes, T. R. Fernandez Perez Tomei, E. M. Gregores, B. Lopes Da Costa, I. Maietto Silverio, P. G. Mercadante, S. F. Novaes, B. Orzari, Sandra S. Padula, V. Scheurer, A. Aleksandrov, G. Antchev, P. Danev, R. Hadjiiska, P. Iaydjiev, M. Misheva, M. Shopova, G. Sultanov, A. Dimitrov, L. Litov, B. Pavlov, P. Petkov, A. Petrov, S. Keshri, D. Laroze, S. Thakur, W. Brooks, T. Cheng, T. Javaid, L. Wang, L. Yuan, Z. Hu, Z. Liang, J. Liu, X. Wang, G. M. Chen, H. S. Chen, M. Chen, Y. Chen, Q. Hou, X. Hou, F. Iemmi, C. H. Jiang, A. Kapoor, H. Liao, G. Liu, Z.-A. Liu, J. N. Song, S. Song, J. Tao, C. Wang, J. Wang, H. Zhang, J. Zhao, A. Agapitos, Y. Ban, A. Carvalho Antunes De Oliveira, S. Deng, B. Guo, Q. Guo, C. Jiang, A. Levin, C. Li, Q. Li, Y. Mao, S. Qian, S. J. Qian, X. Qin, X. Sun, D. Wang, J. Wang, H. Yang, M. Zhang, Y. Zhao, C. Zhou, S. Yang, Z. You, K. Jaffel, N. Lu, G. Bauer, Z. Cui, B. Li, H. Wang, K. Yi, J. Zhang, Y. Li, Z. Lin, C. Lu, M. Xiao, C. Avila, D. A. Barbosa Trujillo, A. Cabrera, C. Florez, J. Fraga, J. A. Reyes Vega, C. RendĂłn, M. Rodriguez, A. A. Ruales Barbosa, J. D. Ruiz Alvarez, N. Godinovic, D. Lelas, A. Sculac, M. Kovac, A. Petkovic, T. Sculac, P. Bargassa, V. Brigljevic, B. K. Chitroda, D. Ferencek, K. Jakovcic, A. Starodumov, T. Susa, A. Attikis, K. Christoforou, A. Hadjiagapiou, C. Leonidou, C. Nicolaou, L. Paizanos, F. Ptochos, P. A. Razis, H. Rykaczewski, H. Saka, A. Stepennov, M. Finger, M. Finger, E. Ayala, E. Carrera Jarrin, Y. Assran, B. El-mahdy, M. Abdullah Al-Mashad, A. Hussein, H. Mohammed, K. Ehataht, M. Kadastik, T. Lange, C. Nielsen, J. Pata, M. Raidal, N. Seeba, L. Tani, A. Milieva, K. Osterberg, M. Voutilainen, N. Bin Norjoharuddeen, E. BrĂŒcken, F. Garcia, P. Inkaew, K. T. S. Kallonen, R. Kumar Verma, T. LampĂ©n, K. Lassila-Perini, B. Lehtela, S. Lehti, T. LindĂ©n, N. R. Mancilla Xinto, M. MyllymĂ€ki, M. M. Rantanen, S. Saariokari, N. T. Toikka, J. Tuominiemi, H. Kirschenmann, P. Luukka, H. Petrow, M. Besancon, F. Couderc, M. Dejardin, D. Denegri, P. Devouge, J. L. Faure, F. Ferri, P. Gaigne, S. Ganjour, P. Gras, G. Hamel de Monchenault, M. Kumar, V. Lohezic, J. Malcles, F. Orlandi, L. Portales, S. Ronchi, M. Ö. Sahin, A. Savoy-Navarro, P. Simkina, M. Titov, M. Tornago, F. Beaudette, G. Boldrini, P. Busson, C. Charlot, M. Chiusi, T. D. Cuisset, F. Damas, O. Davignon, A. De Wit, T. Debnath, I. T. Ehle, B. A. Fontana Santos Alves, S. Ghosh, A. Gilbert, R. Granier de Cassagnac, L. Kalipoliti, M. Manoni, M. Nguyen, S. Obraztsov, C. Ochando, R. Salerno, J. B. Sauvan, Y. Sirois, G. Sokmen, L. Urda GĂłmez, A. Zabi, A. Zghiche, J.-L. Agram, J. Andrea, D. Bloch, J.-M. Brom, E. C. Chabert, C. Collard, G. Coulon, S. Falke, U. Goerlach, R. Haeberle, A.-C. Le Bihan, M. Meena, O. Poncet, G. Saha, P. Vaucelle, A. Di Florio, D. Amram, S. Beauceron, B. Blancon, G. Boudoul, N. Chanon, D. Contardo, P. Depasse, C. Dozen, H. El Mamouni, J. Fay, S. Gascon, M. Gouzevitch, C. Greenberg, G. Grenier, B. Ille, E. Jourd’huy, I. B. Laktineh, M. Lethuillier, B. Massoteau, L. Mirabito, A. Purohit, M. Vander Donckt, J. Xiao, I. Lomidze, T. Toriashvili, Z. Tsamalaidze, V. Botta, S. Consuegra RodrĂ­guez, L. Feld, K. Klein, M. Lipinski, D. Meuser, P. Nattland, V. OppenlĂ€nder, A. Pauls, D. PĂ©rez AdĂĄn, N. Röwert, M. 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Erdmann, R. Horisberger, Q. Ingram, H. C. Kaestli, D. Kotlinski, C. Lange, U. Langenegger, M. Missiroli, L. Noehte, T. Rohe, A. Samalan, T. K. Aarrestad, M. Backhaus, G. Bonomelli, C. Cazzaniga, K. Datta, P. De Bryas Dexmiers D’archiacchiac, A. De Cosa, G. Dissertori, M. Dittmar, M. DonegĂ , F. Eble, K. Gedia, F. Glessgen, C. Grab, N. HĂ€rringer, T. G. Harte, W. Lustermann, M. Malucchi, R. A. Manzoni, M. Marchegiani, L. Marchese, A. Mascellani, F. Nessi-Tedaldi, F. Pauss, V. Perovic, B. Ristic, R. Seidita, J. Steggemann, A. Tarabini, D. Valsecchi, R. Wallny, C. Amsler, P. BĂ€rtschi, F. Bilandzija, M. F. Canelli, G. Celotto, K. Cormier, M. Huwiler, W. Jin, A. Jofrehei, B. Kilminster, T. H. Kwok, S. Leontsinis, V. Lukashenko, A. Macchiolo, F. Meng, J. Motta, A. Reimers, P. Robmann, M. Senger, E. Shokr, F. StĂ€ger, R. Tramontano, D. Bhowmik, C. M. Kuo, P. K. Rout, S. Taj, P. C. Tiwari, L. Ceard, K. F. Chen, Z. G. Chen, A. De Iorio, W.-S. Hou, T. H. Hsu, Y. W. Kao, S. Karmakar, G. Kole, Y. Y. Li, R.-S. Lu, E. Paganis, X. F. Su, J. Thomas-Wilsker, L. S. Tsai, D. Tsionou, H. Y. Wu, E. Yazgan, C. Asawatangtrakuldee, N. Srimanobhas, Y. Maghrbi, D. Agyel, F. Dolek, I. Dumanoglu, Y. Guler, E. Gurpinar Guler, C. Isik, O. Kara, A. Kayis Topaksu, Y. Komurcu, G. Onengut, K. Ozdemir, B. Tali, U. G. Tok, E. Uslan, I. S. Zorbakir, M. Yalvac, B. Akgun, I. O. Atakisi, E. GĂŒlmez, M. Kaya, O. Kaya, M. A. Sarkisla, S. Tekten, A. Cakir, K. Cankocak, S. Sen, O. Aydilek, B. Hacisahinoglu, I. Hos, B. Kaynak, S. Ozkorucuklu, O. Potok, H. Sert, C. Simsek, C. Zorbilmez, S. Cerci, B. Isildak, E. Simsek, D. Sunar Cerci, T. Yetkin, A. Boyaryntsev, O. Dadazhanova, B. Grynyov, L. Levchuk, J. J. Brooke, A. Bundock, F. Bury, E. Clement, D. Cussans, D. Dharmender, H. Flacher, J. Goldstein, H. F. Heath, M.-L. Holmberg, L. Kreczko, S. Paramesvaran, L. Robertshaw, M. S. Sanjrani, J. Segal, V. J. Smith, A. H. Ball, K. W. Bell, A. Belyaev, C. Brew, R. M. Brown, D. J. A. Cockerill, A. Elliot, K. V. Ellis, J. Gajownik, K. Harder, S. Harper, J. Linacre, K. Manolopoulos, M. Moallemi, D. M. Newbold, E. Olaiya, D. Petyt, T. Reis, A. R. Sahasransu, G. Salvi, T. Schuh, C. H. Shepherd-Themistocleous, I. R. Tomalin, K. C. Whalen, T. Williams, I. Andreou, R. Bainbridge, P. Bloch, O. Buchmuller, C. A. Carrillo Montoya, D. Colling, J. S. Dancu, I. Das, P. Dauncey, G. Davies, M. Della Negra, S. Fayer, G. Fedi, G. Hall, H. R. Hoorani, A. Howard, G. Iles, C. R. Knight, P. Krueper, J. Langford, K. H. Law, J. LeĂłn Holgado, E. Leutgeb, L. Lyons, A.-M. Magnan, B. Maier, S. Mallios, A. Mastronikolis, M. Mieskolainen, J. Nash, M. Pesaresi, P. B. Pradeep, B. C. Radburn-Smith, A. Richards, A. Rose, L. Russell, K. Savva, C. Seez, R. Shukla, A. Tapper, K. Uchida, G. P. Uttley, T. Virdee, M. Vojinovic, N. Wardle, D. Winterbottom, J. E. Cole, A. Khan, P. Kyberd, I. D. Reid, S. Abdullin, A. Brinkerhoff, E. Collins, M. R. Darwish, J. Dittmann, K. Hatakeyama, V. Hegde, J. Hiltbrand, B. McMaster, J. Samudio, S. Sawant, C. Sutantawibul, J. Wilson, J. M. Hogan, R. Bartek, A. Dominguez, S. Raj, A. E. Simsek, S. S. Yu, B. Bam, A. Buchot Perraguin, S. Campbell, R. Chudasama, S. I. Cooper, C. Crovella, G. Fidalgo, S. V. Gleyzer, A. Khukhunaishvili, K. Matchev, E. Pearson, C. U. Perez, P. Rumerio, E. Usai, R. Yi, S. Cholak, G. De Castro, Z. Demiragli, C. Erice, C. Fangmeier, C. Fernandez Madrazo, E. Fontanesi, J. Fulcher, F. Golf, S. Jeon, J. O’Cain, I. Reed, J. Rohlf, K. Salyer, D. Sperka, D. Spitzbart, I. Suarez, A. Tsatsos, E. Wurtz, A. G. Zecchinelli, G. Barone, G. Benelli, D. Cutts, S. Ellis, L. Gouskos, M. Hadley, U. Heintz, K. W. Ho, T. Kwon, G. Landsberg, K. T. Lau, J. Luo, S. Mondal, J. Roloff, T. Russell, S. Sagir, X. Shen, M. Stamenkovic, N. Venkatasubramanian, S. Abbott, B. Barton, R. Breedon, H. Cai, M. Calderon De La Barca Sanchez, M. Chertok, M. Citron, J. Conway, P. T. Cox, R. Erbacher, O. Kukral, G. Mocellin, S. Ostrom, I. Salazar Segovia, W. Wei, S. Yoo, K. Adamidis, M. Bachtis, D. Campos, R. Cousins, A. Datta, G. Flores Avila, J. Hauser, M. Ignatenko, M. A. Iqbal, T. Lam, Y. F. Lo, E. Manca, A. Nunez Del Prado, D. Saltzberg, V. Valuev, R. Clare, J. W. Gary, G. Hanson, A. Aportela, A. Arora, J. G. Branson, S. Cittolin, S. Cooperstein, D. Diaz, J. Duarte, L. Giannini, Y. Gu, J. Guiang, V. Krutelyov, R. Lee, J. Letts, H. Li, M. Masciovecchio, F. Mokhtar, S. Mukherjee, M. Pieri, D. Primosch, M. Quinnan, V. Sharma, M. Tadel, E. Vourliotis, F. WĂŒrthwein, A. Yagil, Z. Zhao, A. Barzdukas, L. Brennan, C. Campagnari, S. Carron Montero, K. Downham, C. Grieco, M. M. Hussain, J. Incandela, J. Kim, M. W. K. Lai, A. J. Li, P. Masterson, J. Richman, S. N. Santpur, U. Sarica, R. Schmitz, F. Setti, J. Sheplock, D. Stuart, T. Á. VĂĄmi, X. Yan, D. Zhang, A. Albert, S. Bhattacharya, A. Bornheim, O. Cerri, R. Kansal, J. Mao, H. B. Newman, G. Reales GutiĂ©rrez, T. Sievert, M. Spiropulu, J. R. Vlimant, R. A. Wynne, S. Xie, J. Alison, S. An, M. Cremonesi, V. Dutta, E. Y. Ertorer, T. Ferguson, T. A. GiĂłmez Espinosa, A. Harilal, A. Kallil Tharayil, M. Kanemura, C. Liu, P. Meiring, T. Mudholkar, S. Murthy, P. Palit, K. Park, M. Paulini, A. Roberts, A. Sanchez, W. Terrill, J. P. Cumalat, W. T. Ford, A. Hart, A. Hassani, S. Kwan, J. Pearkes, C. Savard, N. Schonbeck, K. Stenson, K. A. Ulmer, S. R. Wagner, N. Zipper, D. Zuolo, J. Alexander, X. Chen, D. J. Cranshaw, J. Dickinson, J. Fan, X. Fan, J. Grassi, S. Hogan, P. Kotamnives, J. Monroy, G. Niendorf, M. Oshiro, J. R. Patterson, M. Reid, A. Ryd, J. Thom, P. Wittich, R. Zou, L. Zygala, M. Albrow, M. Alyari, O. Amram, G. Apollinari, A. Apresyan, L. A. T. Bauerdick, D. Berry, J. Berryhill, P. C. Bhat, K. Burkett, J. N. Butler, A. Canepa, G. B. Cerati, H. W. K. Cheung, F. Chlebana, C. Cosby, G. Cummings, I. Dutta, V. D. Elvira, J. Freeman, A. Gandrakota, Z. Gecse, L. Gray, D. Green, A. Grummer, S. GrĂŒnendahl, D. Guerrero, O. Gutsche, R. M. Harris, T. C. Herwig, J. Hirschauer, B. Jayatilaka, S. Jindariani, M. Johnson, U. Joshi, T. Klijnsma, B. Klima, K. H. M. Kwok, S. Lammel, C. Lee, D. Lincoln, R. Lipton, T. Liu, K. Maeshima, D. Mason, P. McBride, P. Merkel, S. Mrenna, S. Nahn, J. Ngadiuba, D. Noonan, S. Norberg, V. Papadimitriou, N. Pastika, K. Pedro, C. Pena, C. E. Perez Lara, F. Ravera, A. Reinsvold Hall, L. Ristori, M. Safdari, E. Sexton-Kennedy, N. Smith, A. Soha, L. Spiegel, S. Stoynev, J. Strait, L. Taylor, S. Tkaczyk, N. V. Tran, L. Uplegger, E. W. Vaandering, C. Wang, I. Zoi, C. Aruta, P. Avery, D. Bourilkov, P. Chang, V. Cherepanov, R. D. Field, C. Huh, E. Koenig, M. Kolosova, J. Konigsberg, A. Korytov, N. Menendez, G. Mitselmakher, K. Mohrman, A. Muthirakalayil Madhu, N. Rawal, S. Rosenzweig, V. Sulimov, Y. Takahashi, J. Wang, T. Adams, A. Al Kadhim, A. Askew, S. Bower, R. Hashmi, R. S. Kim, T. Kolberg, G. Martinez, M. Mazza, H. Prosper, P. R. Prova, M. Wulansatiti, R. Yohay, B. Alsufyani, S. Butalla, S. Das, M. Hohlmann, M. Lavinsky, E. Yanes, M. R. Adams, N. Barnett, A. Baty, C. Bennett, R. Cavanaugh, R. Escobar Franco, O. Evdokimov, C. E. Gerber, H. Gupta, M. Hawksworth, A. Hingrajiya, D. J. Hofman, J. H. Lee, D. S. Lemos, C. Mills, S. Nanda, G. Nigmatkulov, B. Ozek, T. Phan, D. Pilipovic, R. Pradhan, E. Prifti, P. Roy, T. Roy, N. Singh, M. B. Tonjes, N. Varelas, M. A. Wadud, J. Yoo, M. Alhusseini, D. Blend, K. Dilsiz, O. K. Köseyan, A. Mestvirishvili, O. Neogi, H. Ogul, Y. Onel, A. Penzo, C. Snyder, E. Tiras, B. Blumenfeld, J. Davis, A. V. Gritsan, Z. Huang, L. Kang, S. Kyriacou, P. Maksimovic, M. Roguljic, S. Sekhar, M. V. Srivastav, M. Swartz, C. You, A. Abreu, L. F. Alcerro Alcerro, J. Anguiano, S. Arteaga Escatel, P. Baringer, A. Bean, Z. Flowers, D. Grove, J. King, G. Krintiras, M. Lazarovits, C. LE Mahieu, J. Marquez, M. Murray, M. Nickel, S. Popescu, C. Rogan, C. Royon, S. Rudrabhatla, S. Sanders, C. Smith, G. Wilson, B. Allmond, R. Gujju Gurunadha, N. Islam, A. Ivanov, K. Kaadze, Y. Maravin, J. Natoli, D. Roy, G. Sorrentino, A. Baden, A. Belloni, J. Bistany-riebman, S. C. Eno, N. J. Hadley, S. Jabeen, R. G. Kellogg, T. Koeth, B. Kronheim, S. Lascio, P. Major, A. C. Mignerey, C. Palmer, C. Papageorgakis, M. M. Paranjpe, E. Popova, A. Shevelev, L. Zhang, C. Baldenegro Barrera, J. Bendavid, H. Bossi, S. Bright-Thonney, I. A. Cali, Y. C. Chen, P. C. Chou, M. D’Alfonso, J. Eysermans, C. Freer, G. Gomez-Ceballos, M. Goncharov, G. Grosso, P. Harris, D. Hoang, G. M. Innocenti, D. Kovalskyi, J. Krupa, L. Lavezzo, Y.-J. Lee, K. Long, C. Mcginn, A. Novak, M. I. Park, C. Paus, C. Reissel, C. Roland, G. Roland, S. Rothman, T. A. Sheng, G. S. F. Stephans, D. Walter, Z. Wang, B. Wyslouch, T. J. Yang, B. Crossman, W. J. Jackson, C. Kapsiak, M. Krohn, D. Mahon, J. Mans, B. Marzocchi, R. Rusack, O. Sancar, R. Saradhy, N. Strobbe, K. Bloom, D. R. Claes, G. Haza, J. Hossain, C. Joo, I. Kravchenko, A. Rohilla, J. E. Siado, W. Tabb, A. Vagnerini, A. Wightman, F. Yan, H. Bandyopadhyay, L. Hay, H. W. Hsia, I. Iashvili, A. Kalogeropoulos, A. Kharchilava, A. Mandal, M. Morris, D. Nguyen, S. Rappoccio, H. Rejeb Sfar, A. Williams, P. Young, D. Yu, G. Alverson, E. Barberis, J. Bonilla, B. Bylsma, M. Campana, J. Dervan, Y. Haddad, Y. Han, I. Israr, A. Krishna, M. Lu, N. Manganelli, R. Mccarthy, D. M. Morse, T. Orimoto, A. Parker, L. Skinnari, C. S. Thoreson, E. Tsai, D. Wood, S. Dittmer, K. A. Hahn, Y. Liu, M. Mcginnis, Y. Miao, D. G. Monk, M. H. Schmitt, A. Taliercio, M. Velasco, J. Wang, G. Agarwal, R. Band, R. Bucci, S. Castells, A. Das, A. Ehnis, R. Goldouzian, M. Hildreth, K. Hurtado Anampa, T. Ivanov, C. Jessop, A. Karneyeu, K. Lannon, J. Lawrence, N. Loukas, L. Lutton, J. Mariano, N. Marinelli, I. Mcalister, T. McCauley, C. Mcgrady, C. Moore, Y. Musienko, H. Nelson, M. Osherson, A. Piccinelli, R. Ruchti, A. Townsend, Y. Wan, M. Wayne, H. Yockey, A. Basnet, M. Carrigan, R. De Los Santos, L. S. Durkin, C. Hill, M. Joyce, M. Nunez Ornelas, D. A. Wenzl, B. L. Winer, B. R. Yates, H. Bouchamaoui, K. Coldham, P. Das, G. Dezoort, P. Elmer, A. Frankenthal, M. Galli, B. Greenberg, N. Haubrich, K. Kennedy, G. Kopp, Y. Lai, D. Lange, A. Loeliger, D. Marlow, I. Ojalvo, J. Olsen, F. Simpson, D. Stickland, C. Tully, S. Malik, R. Sharma, S. Chandra, R. Chawla, A. Gu, L. Gutay, M. Jones, A. W. Jung, D. Kondratyev, M. Liu, G. Negro, N. Neumeister, G. Paspalaki, S. Piperov, N. R. Saha, J. F. Schulte, F. Wang, A. Wildridge, W. Xie, Y. Yao, Y. Zhong, N. Parashar, A. Pathak, E. Shumka, D. Acosta, A. Agrawal, C. Arbour, T. Carnahan, K. M. Ecklund, P. J. FernĂĄndez Manteca, S. Freed, P. Gardner, F. J. M. Geurts, T. Huang, I. Krommydas, N. Lewis, W. Li, J. Lin, O. Miguel Colin, B. P. Padley, R. Redjimi, J. Rotter, E. Yigitbasi, Y. Zhang, O. Bessidskaia Bylund, A. Bodek, P. de Barbaro, R. Demina, A. Garcia-Bellido, H. S. Hare, O. Hindrichs, N. Parmar, P. Parygin, H. Seo, R. Taus, B. Chiarito, J. P. Chou, S. V. Clark, S. Donnelly, D. Gadkari, Y. Gershtein, E. Halkiadakis, M. Heindl, C. Houghton, D. Jaroslawski, S. Konstantinou, I. Laflotte, A. Lath, J. Martins, B. Rand, J. Reichert, P. Saha, S. Salur, S. Schnetzer, S. Somalwar, R. Stone, S. A. Thayil, S. Thomas, J. Vora, D. Ally, A. G. Delannoy, S. Fiorendi, J. Harris, S. Higginbotham, T. Holmes, A. R. Kanuganti, N. Karunarathna, J. Lawless, L. Lee, E. Nibigira, B. Skipworth, S. Spanier, D. Aebi, M. Ahmad, T. Akhter, K. Androsov, A. Bolshov, O. Bouhali, A. Cagnotta, V. D’Amante, R. Eusebi, P. Flanagan, J. Gilmore, Y. Guo, T. Kamon, S. Luo, R. Mueller, A. Safonov, N. Akchurin, J. Damgov, Y. Feng, N. Gogate, Y. Kazhykarim, K. Lamichhane, S. W. Lee, C. Madrid, A. Mankel, T. Peltola, I. Volobouev, E. Appelt, Y. Chen, S. Greene, A. Gurrola, W. Johns, R. Kunnawalkam Elayavalli, A. Melo, D. Rathjens, F. Romeo, P. Sheldon, S. Tuo, J. Velkovska, J. Viinikainen, J. Zhang, B. Cardwell, H. Chung, B. Cox, J. Hakala, R. Hirosky, M. Jose, A. Ledovskoy, C. Mantilla, C. Neu, C. RamĂłn Álvarez, S. Bhattacharya, P. E. Karchin, A. Aravind, S. Banerjee, K. Black, T. Bose, E. Chavez, S. Dasu, P. Everaerts, C. Galloni, H. He, M. Herndon, A. Herve, C. K. Koraka, S. Lomte, R. Loveless, A. Mallampalli, A. Mohammadi, S. Mondal, T. Nelson, G. Parida, L. PĂ©trĂ©, D. Pinna, A. Savin, V. Shang, V. Sharma, W. H. Smith, D. Teague, H. F. Tsoi, W. Vetens, A. Warden, S. Afanasiev, V. Alexakhin, Yu. Andreev, T. Aushev, D. Budkouski, R. Chistov, M. Danilov, T. Dimova, A. Ershov, S. Gninenko, I. Gorbunov, A. Gribushin, A. Kamenev, V. Karjavine, M. Kirsanov, V. Klyukhin, O. Kodolova, V. Korenkov, A. Kozyrev, N. Krasnikov, A. Lanev, A. Malakhov, V. Matveev, A. Nikitenko, V. Palichik, V. Perelygin, S. Petrushanko, S. Polikarpov, O. Radchenko, M. Savina, V. Shalaev, S. Shmatov, S. Shulha, Y. Skovpen, V. Smirnov, O. Teryaev, I. Tlisova, A. Toropin, N. Voytishin, B. S. Yuldashev, A. Zarubin, I. Zhizhin, L. Dudko, K. Ivanov, V. Kim, V. Murzin, V. Oreshkin, D. Sosnov, E. Boos, V. Bunichev, M. Dubinin, V. Savrin, A. Snigirev
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The traditional quark model 1,2 accounts for the existence of baryons, such as protons and neutrons, which consist of three quarks, as well as mesons, composed of a quark–antiquark pair. Only recently has substantial evidence started to accumulate for exotic states composed of four or five quarks and antiquarks 3 . The exact nature of their internal structure remains uncertain 4–29 . Here we report the first measurement of quantum numbers of the recently discovered family of three all-charm tetraquarks 30–32 , using data collected by the CMS experiment at the Large Hadron Collider from 2016 to 2018 (refs. 33,34 ). The angular analysis techniques developed for the discovery and characterization of the Higgs boson 35–37 have been applied to the new exotic states. Here we show that the quantum numbers for parity P and charge conjugation C symmetries are found to be +1. The spin J of these exotic states is determined to be consistent with 2 ħ , while 0 ħ and 1 ħ are excluded at 95% and 99% confidence levels, respectively. The J P C = 2 ++ assignment implies particular configurations of constituent spins and orbital angular momenta, which constrain the possible internal structure of these tetraquarks.
GPT-4o mini: Non-social science research article
Architecture of the neutrophil compartment
Daniela Cerezo-Wallis, Andrea Rubio-Ponce, Mathis Richter, Emanuele Pitino, Immanuel Kwok, Giovanni Marteletto, Ana Cristina Guanolema-Coba, Changming Shih, Run-Kai Huang, Ana Moraga, Natalia Borbaran Bravo, Samuel Doré, Sergio Callejas, David G. Aragonés, Daniel Jiménez-Carretero, Daniel Martin, Samuel Ovadia, Tommaso Vicanolo, Georgiana Crainiciuc, Jon Sicilia, Tong Deng, Anjelica Martin, Jing Zhang, Maria Isabel Cuartero, Diego Moncada Giraldo, Alicia Garcia-Culebras, Alejandra Aroca-Crevillen, Sandra Martín-Salamanca, Carlos Torroja, Max Ruiz, Irene Ruano, Melissa S. F. Ng, Jian Hou, You Wang, Ming Zhang, Jun Pu, Ana Herruzo, David Chang van Oordt, Seokyoon Chang, Alexander E. Downie, Fei Chen, Andrea L. Graham, William C. Gause, Pierre O. Fiset, Jonathan D. Spicer, Holger Heyn, Maria A. Zuriaga, Juan A. Bernal, Irina A. Udalova, Maria A. Moro, Katrien de Bock, Ana Dopazo, Jose J. Fuster, Fåtima Sånchez-Cabo, Juan C. Nieto, Gabriel F. Calvo, Julia Skokowa, Oliver Soehnlein, Daniela F. Quail, Logan A. Walsh, Lai Guan Ng, Andrés Hidalgo, Ivån Ballesteros
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GPT-4o mini: Non-social science research article
Author Correction: Evidence for improved DNA repair in the long-lived bowhead whale
Denis Firsanov, Max Zacher, Xiao Tian, Todd L. Sformo, Yang Zhao, Gregory Tombline, J. Yuyang Lu, Zhizhong Zheng, Luigi Perelli, Enrico Gurreri, Li Zhang, Jing Guo, Anatoly Korotkov, Valentin Volobaev, Seyed Ali Biashad, Zhihui Zhang, Johanna Heid, Alexander Y. Maslov, Shixiang Sun, Zhuoer Wu, Jonathan Gigas, Eric C. Hillpot, John C. Martinez, Minseon Lee, Alyssa Williams, Abbey Gilman, Nicholas Hamilton, Ekaterina Strelkova, Ena Haseljic, Avnee Patel, Maggie E. Straight, Nalani Miller, Julia Ablaeva, Lok Ming Tam, Chloé Couderc, Michael R. Hoopmann, Robert L. Moritz, Shingo Fujii, Amandine Pelletier, Dan J. Hayman, Hongrui Liu, Yuxuan Cai, Anthony K. L. Leung, Zhengdong Zhang, C. Bradley Nelson, Lisa M. Abegglen, Joshua D. Schiffman, Vadim N. Gladyshev, Carlo C. Maley, Mauro Modesti, Giannicola Genovese, Mirre J. P. Simons, Jan Vijg, Andrei Seluanov, Vera Gorbunova
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GPT-4o mini: Non-social science research article
TSC tunes progenitor balance and upper-layer neuron generation in neocortex
Cristine R. Casingal, Naoki Nakagawa, Keiko Yabuno-Nakagawa, Cailyn Meyer, Siling Liu, Vasiliki Gkini, Su-Ji Cho, Mario Skarica, Dan Liang, Jeremy M. Simon, Nana Matoba, Ahana Mallick, Rubal Singla, Jieun Park, Chu-Wei Huang, Hailey Wilson, Janice Lee, H. Troy Ghashghaei, Garret D. Stuber, Oskari Heikinheimo, Takashi Namba, Jason L. Stein, E. S. Anton
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GPT-4o mini: Non-social science research article
Decay of driver mutations shapes the landscape of intestinal transformation
Filipe C. Lourenço, Iannish D. Sadien, Kim Wong, Sam Adler, Ashley Sawle, Leonor Schubert Santana, Lee Hazelwood, Giada Giavara, Anna M. Nicholson, Matthew D. Eldridge, Noori Maka, Gerard Lynch, Stephen T. McSorley, Joanne Edwards, Richard Kemp, David J. Adams, Douglas J. Winton
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Colorectal cancer (CRC) has traditionally been thought to develop through stepwise mutation of the APC tumour suppressor and other driver genes, coupled with expansion of positively selected clones. However, recent publications show that many premalignant lesions comprise multiple clones expressing different mutant APC proteins 1–4 . Here, by mediating transformation on different mouse backgrounds containing mutations in Kras or other common CRC driver genes, we establish that the presence of diverse priming events in the normal mouse intestinal epithelium can change the transformation and clonal-selection landscape, permitting the fixation of strong driver mutations in Apc and Ctnnb1 that are otherwise lost due to negative selection. These findings, combined with our demonstration of mutational patterns consistent with similar priming events in human CRC, suggest that the order in which driver mutations occur in intestinal epithelium can determine whether clones are positively or negatively selected and can shape subsequent tumour development.
GPT-4o mini: Non-social science research article
The Microflora Danica atlas of Danish environmental microbiomes
C. M. Singleton, T. B. N. Jensen, F. Delogu, K. S. Knudsen, E. A. SÞrensen, V. R. JÞrgensen, S. M. Karst, Y. Yang, M. Sereika, F. Petriglieri, S. Knutsson, S. M. Dall, R. H. Kirkegaard, J. M. Kristensen, C. K. Overgaard, B. J. Woodcroft, D. R. Speth, S. T. N. Aroney, character(0), Henning C. Thomsen, Bent T. Christensen, Lis W. de Jonge, Anne-Cathrine S. Danielsen, Cecilie Hermansen, Mogens H. Greve, Rasmus EjrnÊs, Thomas A. Davidson, Signe Normand, Urs A. Treier, Bjarke Madsen, Andreas Schramm, Ian P. G. Marshall, Ann-Sofie Dam, Kasper U. Kjeldsen, Kai Finster, Philip F. Thomsen, Eva E. Sigsgaard, Martin J. Klepke, Marie VestergÄrd, Erik Aude, Lene Thomsen, Camilla Lemming, Rita HÞrfarter, Marlene M. Jensen, Tobias G. FrÞslev, Lone Gram, Peter B. Svendsen, Morten Dencker Schostag, Sanne Kjellerup, Torben L. Skovhus, Ditte A. SÞborg, Kasper Reitzel, JÞrgen F. Pedersen, Andrew Giguere, Inge S. Pedersen, Mads SÞnderkÊr, Jes Vollertsen, Fan Liu, Peter Roslev, Niels Iversen, KÄre L. Nielsen, Nadieh de Jonge, Dan Bruhn, Jeppe L. Nielsen, Torsten N. Kristensen, Chenjing Jiang, Marta A. Nierychlo, Giulia Dottorini, M. Wagner, M. K. D. Dueholm, P. H. Nielsen, M. Albertsen
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GPT-4o mini: Non-social science research article
Author Correction: Seismic detection of a 600-km solid inner core in Mars
Huixing Bi, Daoyuan Sun, Ningyu Sun, Zhu Mao, Mingwei Dai, Douglas Hemingway
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GPT-4o mini: Non-social science research article
Viral RNA blocks circularization to evade host codon usage control
Huan Liu, Jiabin Duan, Renu Garg, Pancheng Xie, Yi Liu
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GPT-4o mini: Non-social science research article
Whole-genome landscapes of 1,364 breast cancers
Ryul Kim, Jonghan Yu, Joonoh Lim, Brian Baek-Lok Oh, Seok Jin Nam, Seok Won Kim, Jeong Eon Lee, Byung Joo Chae, Ji-Yeon Kim, Ga Eun Park, Bong Joo Kang, Pill Sun Paik, Soo Yeon Bae, Chang Ik Yoon, Young Joo Lee, Dooreh Kim, Kabsoo Shin, Ji Eun Lee, Jun Kang, Ahwon Lee, Erin Connolly-Strong, Sangmoon Lee, Bo Rahm Lee, Yuna Lee, Ki Jong Yi, Young Oh Kwon, In Hwan Chun, Junggil Park, Jihye Kim, Chahyun Choi, Jong Yeon Shin, Hyungjung Lee, Minji Kim, Hansol Park, Ilecheon Jeong, Boram Yi, Won-Chul Lee, Jeong Seok Lee, Woo Chan Park, Sung Hun Kim, Yoon-La Choi, Jeongmin Lee, Young Seok Ju, Yeon Hee Park
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GPT-4o mini: Non-social science research article
Author Correction: Activity of caspase-8 determines plasticity between cell death pathways
Kim Newton, Katherine E. Wickliffe, Allie Maltzman, Debra L. Dugger, Rohit Reja, Yue Zhang, Merone Roose-Girma, Zora Modrusan, Meredith S. Sagolla, Joshua D. Webster, Vishva M. Dixit
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GPT-4o mini: Non-social science research article
CD8+ T cell stemness precedes post-intervention control of HIV viremia
Zahra Kiani, Jonathan M. Urbach, Hannah Wisner, Mpho J. Olatotse, Daniel Y. Chang, Joshua A. Acklin, Alicja Piechocka-Trocha, Nathalie Bonheur, Ashok Khatri, Mathias Lichterfeld, Jesper D. Gunst, Ole S. SĂžgaard, Marina Caskey, Michel C. Nussenzweig, Bruce D. Walker, David R. Collins
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GPT-4o mini: Non-social science research article
Computational enzyme design by catalytic motif scaffolding
Markus Braun, Adrian Tripp, Morakot Chakatok, Sigrid Kaltenbrunner, Celina Fischer, David Stoll, Aleksandar Bijelic, Wael Elaily, Massimo G. Totaro, Melanie Moser, Shlomo Y. Hoch, Horst Lechner, Federico Rossi, Matteo Aleotti, MĂ©lanie Hall, Gustav Oberdorfer
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Enzymes find broad use as biocatalysts in industry and medicine owing to their exquisite selectivity, efficiency and mild reaction conditions. Custom-designed enzymes can produce tailor-made biocatalysts with potential applications that extend beyond natural reactions. However, current design methods require testing a large number of designs and mostly produce de novo enzymes with low catalytic activities 1–3 . As a result, they require costly experimental optimization and high-throughput screening to be industrially viable 4,5 . Here we present rotamer inverted fragment finder–diffusion (Riff-Diff), a hybrid machine learning and atomistic modelling strategy for scaffolding catalytic arrays in de novo proteins. We highlight the general applicability of Riff-Diff by designing enzymes for two mechanistically distinct chemical transformations, the retro-aldol reaction and the Morita–Baylis–Hillman reaction. We show that in both cases, it is possible to generate catalysts that exhibit activities rivalling those optimized by in vitro evolution, along with exquisite stereoselectivity. High-resolution structures of six of the designs revealed near-atomic active site design precision. The design strategy can, in principle, be applied to any catalytically competent amino acid array. These findings lay the basis for practical applicability of de novo protein catalysts in synthesis and describe fundamental principles of protein design and enzyme catalysis.
Nature DOI suffix ≠ "/s...": Not a research article
‘Fire amoeba’ survives in hotter conditions than any other complex cell
Ewen Callaway
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Nature DOI suffix ≠ "/s...": Not a research article
Why universities need to radically rethink exams in the age of AI
Vitomir Kovanović, Abhinava Barthakur, Srećko Joksimović, George Siemens
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Geothermal networks let cities warm and cool as one
Peter Fairley
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Wooden skyscrapers point the way to more sustainable cities
Sedeer el-Showk
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Quarks in ‘exotic’ quartets prefer to stick together
Elena Santopinto
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Building mentally healthy cities with neuroscience
Simon Makin
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Nature DOI suffix ≠ "/s...": Not a research article
Great science happens in great teams — research assessments must try to capture that
David Budtz Pedersen
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Cooking up a storm of air pollution
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Nature DOI suffix ≠ "/s...": Not a research article
China’s scientific clout is growing as US influence wanes: the data show how
Jeff Tollefson
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Laser cooling traps more antimatter atoms than ever before
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AI chatbots can sway voters with remarkable ease — is it time to worry?
Max Kozlov
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Memes reveal threats to graduate-student mental health
Samuel Paulo Cibulski
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Ease the EU postdoc job market with better routes to innovation
Bram Servais
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Antibodies and T cells join forces for sustained HIV remission
Jonathan Z. Li
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Nature at its weirdest: what metamorphosis reveals about science and ourselves
Itai Yanai
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DeepSeek’s self-correcting AI model aces tough maths proofs
Mohana Basu
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Climbing through the silver mine: my work as a geologist
Dave Tacon
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Audio long read: Faulty mitochondria cause deadly diseases — fixing them is about to get a lot easier
Gemma Conroy, Benjamin Thompson
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Will blockbuster obesity drugs revolutionize addiction treatment?
Elie Dolgin
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Satellite swarms set to photobomb more than 95% of some telescopes’ images
Jenna Ahart
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Aluminium is crucial to vaccines — and safe. Why are US advisers debating it?
Heidi Ledford
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Spineless creatures, possibly the world’s oldest beer receipt and more: 2025’s best Books in brief
Andrew Robinson
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David Baltimore obituary: virologist whose enzyme discovery transformed understanding of cancer and HIV/AIDS
Stephen Goff
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AI chatbots can persuade voters to change their minds
Chiara Vargiu, Alessandro Nai
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Trump’s AI ‘Genesis Mission’: what are the risks and opportunities?
Elizabeth Gibney, Alexandra Witze, Jenna Ahart
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Still no sign of hypothetical sterile-neutrino particle
Patrick Huber
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The ‘silent’ brain cells that shape our behaviour, memory and health
Alison Abbott
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China accounts for more than half of leading output in the applied sciences
Benjamin Plackett
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Towns lag behind the switch to standard time
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Even in space, telescopes can’t escape photobombers
Meredith Rawls
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Growing cities face mounting challenges
Richard Hodson
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Drinking water is at risk during warfare — better protections are needed
Rongsheng Ning, Yingying Xiang, Mauricius Marques dos Santos, Shane A. Snyder
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AI finds signs of life in ancient rocks
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AI reviewers are here — we are not ready
Giorgio F. Gilestro
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Data drive city transportation forwards
Neil Savage
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China wants to lead the world on AI regulation — will the plan work?
Elizabeth Gibney
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Photobombing satellites could ruin the night sky for space telescopes
Benjamin Thompson, Nick Petrić Howe
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Darleane C. Hoffman obituary: chemist who expanded the periodic table
Dawn Shaughnessy
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Experimental vaccine prevents deadly allergic reactions in mice
Rachel Fieldhouse
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Alternatives to animal research are not inherently more ethical
Michele A. Basso
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A bothy among the stars
M. J. Pettit
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This is the world’s largest spider web — November’s best science images
Fred Schwaller, Katie Kavanagh
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The mystery of emerald green — cracked
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Cities aren’t built for women — it’s time to change that
Leslie Kern
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Primate embryo model leaps across developmental boundaries
Xiangyu Kong, Thorold W. Theunissen
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How cities can keep their cool
Michael Eisenstein
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Order in which cancer-driving mutations occur affects the chance of tumour development
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Don’t downplay problems of bullying and harassment in academia
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Video-call glitches trigger uncanniness and harm consequential life outcomes
Melanie S. Brucks, Jacqueline R. Rifkin, Jeff S. Johnson
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Built environment disparities are amplified during extreme weather recovery
Tianyuan Huang, Chad Zanocco, Zhecheng Wang, Jackelyn Hwang, Ram Rajagopal
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Persuading voters using human–artificial intelligence dialogues
Hause Lin, Gabriela Czarnek, Benjamin Lewis, Joshua P. White, Adam J. Berinsky, Thomas Costello, Gordon Pennycook, David G. Rand
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Proceedings of the National Academy of Sciences

GPT-4o mini: Non-social science research article
In This Issue
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GPT-4o mini: Non-social science research article
Erasable serum markers
Shirin Nouraein, Honghao Li, Sangsin Lee, Vidal A. Saenz, Emma K. Raisley, Sho Watanabe, Vincent D. Costa, Jerzy O. Szablowski
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Gene expression in the brain is typically evaluated using invasive biopsy or postmortem histology. Serum markers provide an alternative way to monitor the brain, but relatively few such markers exist. Additionally, the origin of serum markers often cannot be localized to a specific cell population, and monitoring dynamic changes in their gene expression is compromised by the same factor that makes the markers detectable—long serum half-life. Here, we propose a paradigm to improve the sensitivity of serum marker measurement by modifying them with an external chemical stimulus. As a proof of concept, we use a well-controlled system with known half-life and tunable serum levels. This system, released markers of activity (RMA), or RMAs enables measurement of transgene expression in the brain through a simple blood test. RMAs are stable in blood, with a half-life of >100 h and can detect expression from as few as 12 neurons in mice. However, their long serum half-life also generates detectable background signals when RMA are used to track temporal changes in gene expression. By engineering on-demand erasable RMAs and injecting an intravenous targeted protease, we reduced RMA background signal by more than an order of magnitude without compromising the detection sensitivity. Similarly to previous RMA iterations, our approach showed a 65,000-fold increase in their signal over the baseline when expressed in a single brain region but also improved the dynamic range of detection for low-level promoter activity that is driven by physiological levels of c-Fos.
GPT-4o mini: Non-social science research article
Digital twins come to the life sciences
David Adam
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GPT-4o mini: Non-social science research article
Endothelial cells sialylate IgG within the FcRn-mediated recycling pathway
Leandre M. Glendenning, Megan D. Long, Gracie C. Carlson, Austin D. Silva, Siyu Wang, Kalob M. Reynero, Emily N. Kukan, Susan L. Bellis, Wendy A. Goodman, Brian A. Cobb
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IgG is a key to adaptive immunity and a critical platform for drug design. Sialic acid on the conserved glycan within the Fc domain is believed to promote anti-inflammatory IgG function; however, regulation of sialylation remains poorly defined. We previously showed that IgG sialylation is primarily mediated by B cell–extrinsic processes in mice. Here, we found that IgG sialylation occurs in the subcellular compartments of the FcRn-mediated IgG recycling pathway of endothelial cells. This process is down-regulated by inflammatory signals and up-regulated during gestation, providing mechanistic insight into the epidemiology associating IgG glycosylation, pregnancy and inflammatory disease. These findings demonstrate that plasma-localized IgG glycosylation is dynamically altered by the endothelium, revealing a potential mechanism through which the function of all endogenous and administered IgG and Fc-containing pharmaceuticals could be altered.
GPT-4o mini: Non-social science research article
Large role of anthropogenic climate change in driving smoke concentrations across the western United States from 1992 to 2020
Xu Feng, Loretta J. Mickley, Jed O. Kaplan, Makoto Kelp, Yang Li, Tianjia Liu
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Wildfire activity has increased dramatically in the western United States over the last three decades, having a significant impact on air quality and human health. However, quantifying the drivers of trends in wildfires and subsequent smoke concentrations is challenging, as both natural variability (NV) and anthropogenic climate change (ACC) play important roles. Here, we devise an approach involving observed meteorology and vegetation and a range of models to determine the relative roles of ACC and NV in driving burned area across the western United States. We also examine the influence of ACC on smoke concentrations. We estimate that ACC accounts for 33 to 82% of observed total burned area, depending on the ecoregion, yielding 65% of total fire emissions on average across the western United States from 1992 to 2020. In all ecoregions except Mediterranean California, ACC contributes to a greater percentage of burned area in lightning-ignited wildfires than in human-ignited wildfires. On average, ACC contributes 49% to smoke PM 2.5 concentrations in the western United States from 1997 to 2020, and explains 58% of the increasing trend in smoke PM 2.5 from 2010 to 2020. Northern California and areas in Oregon, Washington, and Idaho experience the greatest smoke concentrations attributable to ACC, averaging 40 to 66% of total PM 2.5 over 2010–2020. Our work highlights the significant role of ACC in degrading air quality in the western United States and identifies those regions most vulnerable to wildfire smoke and thus adverse health impacts.
GPT-4o mini: Non-social science research article
Global stability of epidemic models with uniform susceptibility
David J. D. Earn, C. Connell McCluskey
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Transmission dynamics of infectious diseases are often studied using compartmental mathematical models, which are commonly represented as systems of autonomous ordinary differential equations. A key step in the analysis of such models is to identify equilibria and find conditions for their stability. Local stability analysis reduces to a problem in linear algebra, but there is no general algorithm for establishing global stability properties. Substantial progress on global stability of epidemic models has been made in the last 20 y, primarily by successfully applying Lyapunov’s method to specific systems. Here, we show that any compartmental epidemic model in which susceptible individuals cannot be distinguished and can be infected only once, has a globally asymptotically stable (GAS) equilibrium. If the basic reproduction number R 0 satisfies R 0 > 1 , then the GAS fixed point is an endemic equilibrium (i.e., constant, positive disease prevalence). Alternatively, if R 0 ≀ 1 , then the GAS equilibrium is disease-free. This theorem subsumes a large number of results published over the last century, strengthens most of them by establishing global rather than local stability, avoids the need for any stability analyses of these systems in the future, and settles the question of whether coexisting stable solutions or nonequilibrium attractors are possible in such models: They are not.
GPT-4o mini: Non-social science research article
Reviewers are better equipped to detect fraud than editors
Rémi Neveu, André Neveu
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GPT-4o mini: Non-social science research article
Numerical calculation finds the revised elastic field of an edge dislocation to be incorrect
Dallas R. Trinkle
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GPT-4o mini: Non-social science research article
The human endogenous retroviral envelope HEMO protein interacts with BACE2: Novel partnership acquired in the primate lineage
Anthony BĂ©guin, Marianne Chasseriaud, Guillaume Hollaender, Yves Jacob, Guillaume Mousseau, Thierry Heidmann, Odile Heidmann
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Endogenous retroviruses (ERV) represent 8 to 10% of mammalian genome. While most ERV are defective, a few retroviral genes, such as the envelope syncytins, were exapted during evolution and likely contributed to the emergence of placental mammals. We have previously identified the oldest full-length retroviral envelope gene in the human genome, HEMO (Human Endogenous MER34 ORF), endogenized in an ancestral mammal approximately 100 Mya. The transmembrane HEMO protein is predominantly expressed in the placenta and solid tumors. It is unexpectedly secreted from the cell surface as a soluble SHED form which can be detected in pregnant women blood. HEMO is nonfusogenic, having lost both its furin cleavage site between the SU and TM subunits, and its fusion peptide. To identify a potential receptor or partner of HEMO, we developed an original strategy leveraging the fusogenic property of the Measles virus proteins to screen a human ORFeome expression library by cell–cell fusion. We successfully identified the transmembrane aspartic protease BACE2 (ß-site APP-cleaving enzyme 2) as a specific interacting partner for both SHED and transmembrane HEMO proteins. We further determined the emergence time of this interaction, using in silico reconstructed ancestral “HEMO” sequences from several mammals. We identified two specific point mutations—resulting in two new cysteines in close proximity and loss of the SU-TM furin cleavage of HEMO—that appeared in the simian catarrhine lineage 30 to 45 Mya, and enabled interaction of this ancestral primate HEMO with BACE2, possibly for another physiological function prolonging HEMO conservation for tens of millions of years until humans.
GPT-4o mini: Non-social science research article
Core microRNAs regulate neural crest delamination and condensation in the developing trigeminal ganglion
Rocío B. Marquez, Estefanía Sånchez Våsquez, Andrés M. Alonso, Yanel E. Bernardi, Emilio M. Santillan, Peter Lwigale, Luisa Cochella, Marianne E. Bronner, Pablo H. Strobl-Mazzulla
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Cranial neural crest cells (NCCs) undergo dynamic processes during embryonic development, including delamination from the neural tube by epithelial-to-mesenchymal transition (EMT), migration to the periphery, condensation via mesenchymal-to-epithelial transition (MET), and differentiation into structures like the trigeminal ganglion. Here, we identify and characterize the function of a core set of miRNAs involved in these transitions during the formation of the trigeminal ganglion in the chick embryo. We further identify putative targets of miRNAs involved in neural crest EMT and MET. Notably, introducing MET-involved miRNAs into trunk NCCs endows these cells with the ability to condense and differentiate into neurons in vivo in a manner reminiscent of cranial rather than trunk NCCs. Our findings shed light on the intricate regulatory networks governing NCC behavior, positioning miRNAs as key regulatory elements required for migratory transitions and axial level–specific differentiation capabilities.
GPT-4o mini: Non-social science research article
Recovery of infectious recombinant human norovirus using zebrafish embryos
Tomohiro Kotaki, Yuki Akieda, Zelin Chen, Megumi Onishi, Sayuri Komatsu, Daisuke Motooka, Hiroko Omori, Shigeyuki Tamiya, Yuta Kanai, Shohei Minami, Takahiro Kawagishi, Naomi Sakon, Shintaro Sato, Tohru Ishitani, Takeshi Kobayashi
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Human norovirus (HuNoV) is the leading cause of gastroenteritis. However, the lack of a reverse genetics system for infectious HuNoV has hindered the development of antivirals and vaccines. Herein, we established a reverse genetics system for infectious HuNoV using a robust HuNoV replication system based on zebrafish embryos. Transfection of a HuNoV cDNA clone into cultured cells, followed by microinjection of the supernatant into zebrafish embryos, produced infectious recombinant HuNoVs. The recombinant HuNoVs can replicate in human intestinal organoids, confirming their infectivity in a physiologically relevant system. Notably, we also recovered recombinant HuNoVs following direct HuNoV cDNA microinjection into zebrafish embryos without the use of cultured cells, which is a simpler and more efficient approach. Using the established systems, we recovered an infectious recombinant HuNoV carrying a reporter tag insertion, enabling rapid antiviral evaluation and virus inactivation assays. Furthermore, we generated recombinant HuNoVs of the GII.17 and GII.4 genotypes, as well as a chimeric virus carrying the GII.4 VP1 gene in a GII.17 backbone, demonstrating the utility of the systems for viral replication studies. These systems will accelerate research on HuNoV replication and enhance efforts to develop vaccines and antivirals.
GPT-4o mini: Non-social science research article
An Archean atmosphere rich in sulfur biomolecules
Nathan W. Reed, Cade M. Christensen, Jason D. Surratt, Shawn Erin McGlynn, Boswell A. Wing, Cajetan Neubauer, Margaret A. Tolbert, Eleanor C. Browne
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The abiotic production of sulfur-containing biomolecules under mild and globally relevant conditions has been an elusive endeavor in prebiotic chemistry experiments. As a result, a disconnect has emerged between understanding the origins of life and the later stages of biological evolution; the former potentially occurred independent of sulfur while the latter is universally dependent on it. Here, we demonstrate that planetary organic haze chemistry produces a suite of sulfur biomolecules including cysteine, coenzyme M, taurine, and potentially methionine and homocysteine. These compounds may form high in the atmosphere and subsequently deposit to early surface environments in sufficient amounts to support a budding global biosphere. Our findings thus challenge long-standing assumptions that sulfur biomolecules such as cysteine must have been biological “inventions.”
GPT-4o mini: Non-social science research article
Reply to Neveu and Neveu: Inference in an information-restricted environment
Reese A. K. Richardson, Spencer S. Hong, Jennifer A. Byrne, Thomas Stoeger, Luis A. Nunes Amaral
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GPT-4o mini: Non-social science research article
Interoception vs. Exteroception: Cardiac interoception competes with tactile perception, yet also facilitates self-relevance encoding
Marie Loescher, Patrick Haggard, Catherine Tallon-Baudry
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Internal bodily signals, notably the heartbeat, influence our perception of the external world—but the nature of this influence remains unclear. Different frameworks, originating in opposing views of the function of interoception, have developed largely in parallel. One line of evidence (Internal/External Competition) indicates that interoceptive and exteroceptive inputs compete for neural resources. Another line (Self-related Facilitation) shows a link between interoceptive and self-related processing, which might include computing the self-relevance of exteroceptive inputs. We contrasted these accounts within a single experimental task for which they yielded distinct predictions. We measured heartbeat-evoked potentials (HEPs, a measure of cardiac interoception) with electroencephalogram and manipulated the self-relevance of an audio-tactile stimulus by placing the audio source either inside or outside the peripersonal space immediately around the body. On the one hand, prestimulus HEP amplitudes over the somatosensory cortex were linked to slower reaction times and affected audio-tactile stimulus-evoked responses in the same area, indicating competition for shared neural resources. On the other hand, prestimulus HEPs over integrative sensorimotor and default-mode network regions facilitated stimulus self-relevance encoding, both in reaction times and audio-tactile evoked responses. Importantly, Competition and Facilitation effects were spatially and statistically independent from each other. We therefore reconcile the two views by showing the coexistence of two independent mechanisms: one that allocates neural resources to either internal bodily signals or the external world, and another by which interoception and exteroception are combined to determine the self-relevance of external signals. Our results highlight the multidimensionality of HEPs and of internal states more generally.
GPT-4o mini: Non-social science research article
Neurofluid circulation changes during a focused attention style of mindfulness meditation
Bryce A. Keating, David Vago, Kilian Hett, Ciaran Considine, Maria Garza, Caleb Han, Colin McKnight, Daniel O. Claassen, Manus J. Donahue
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Neurofluids, including cerebrospinal fluid (CSF) and interstitial fluid, circulate through regulated central nervous system pathways to clear cerebral waste and support brain health, with elevated CSF flow hyperdynamicity and regurgitation through the cerebral aqueduct associating with aging and neurodegeneration. Sleep exerts state-dependent effects on neurofluid circulation, yet similar modulation during unique waking states, such as meditation, remains underexplored. Notably, mindfulness meditation shares several regulatory features with sleep, with core meditation practices representing distinct arousal states. We investigated whether the focused attention (FA) style of mindfulness meditation modulates neurofluid dynamics directionally opposite to aging and consistent with sleep. Using phase-contrast MRI, we assessed absolute CSF flow and velocity through the aqueduct, and using blood oxygenation level–dependent (BOLD) MRI, we assessed CSF fluctuations near the cervicomedullary junction together with total supratentorial gray matter fluctuations. Assessments were repeated in meditation-naĂŻve adults during mind wandering (MW) without (n = 13; repeatability controls) and with (n = 14; breath controls) respiration rate modulation and in adept meditators (n = 23) during MW and FA meditation. No aqueduct CSF flow changes were observed in control groups. In meditators, aqueduct absolute CSF flow motion decreased from MW to FA meditation (4.60 ± 2.27 mL/min to 4.17 ± 2.10 mL/min, P = 0.005) owing to reduced regurgitant cranially directed CSF flow velocity. On BOLD, this paralleled increased low-frequency (0.0614 to 0.0887 Hz) CSF fluctuations ( P = 0.0138), which were inversely correlated with gray matter fluctuations during FA meditation. Findings suggest that mindfulness meditation may represent a nonpharmacological, waking state capable of modulating neurofluid dynamics in a directionally similar manner to sleep and opposite to aging and neurodegeneration.
GPT-4o mini: Non-social science research article
LUMINIDEPENDENS orchestrates global transcriptional repression in Arabidopsis
Clara Bergis-Ser, Qingyi Wang, Xiaoning He, Maherun Nisa, Vickie Kaiser, Christelle Mazubert, Jeannine Drouin-Wahbi, Rim Brik-Chaouche, Layla Chmaiss, Jelle Van Leene, Geert De Jaeger, Jose Gutierrez-Marcos, Catherine Bergounioux, Clara Bourbousse, David Latrasse, Moussa Benhamed, CĂ©cile Raynaud
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Genomic integrity is constantly challenged by transcription/replication conflicts, a major source of replication stress and instability across all life forms. While extensive studies have elucidated mechanisms for resolving transcription/replication conflicts in animals, yeast, and prokaryotes, their counterparts in plants remain largely unexplored. Through a forward genetic screen, we identified LUMINIDEPENDENS (LD), previously known for its role in regulating the flowering repressor FLC , as a key factor in mitigating replication stress in plants. Notably, transcriptomic analyses reveal that LD loss results in the upregulation of over half of the Arabidopsis genes, placing LD as a global transcriptional repressor. Consistent with this role, LD directly binds a substantial portion of the Arabidopsis genome and interacts with the MED18 subunit of the Mediator complex to modulate RNA polymerase II phosphorylation. These findings uncover a fundamental function of LD in fine-tuning transcription at a genome-wide scale, with potentially an additional role in suppressing transcription–replication conflicts by locally dampening transcription and promoting replication fork progression. Our work highlights an intriguing genome-protective strategy in plants, that could shed light on mechanisms involved in transcription–replication conflict management in eukaryotic systems.
GPT-4o mini: Non-social science research article
Reconstructing Waddington’s landscape from data
Dillon J. Cislo, M. Joaquina DelĂĄs, James Briscoe, Eric D. Siggia
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The development of a zygote into a functional organism requires that this single progenitor cell gives rise to numerous distinct cell types. Attempts to exhaustively tabulate the interactions within developmental signaling networks that coordinate these hierarchical cell fate transitions are difficult to interpret or fit to data. An alternative approach models the cellular decision-making process as a flow in an abstract landscape whose signal-dependent topography defines the possible developmental outcomes and the transitions between them. Prior applications of this formalism have built landscapes in low-dimensional spaces without explicit maps to gene expression. Here, we present a computational geometry framework for fitting dynamical landscapes directly to high-dimensional single-cell data. Our method models the time evolution of probability distributions in gene expression space, enabling landscape construction with minimal free parameters and precise characterization of dynamical features, including fixed points, unstable manifolds, and basins of attraction. We demonstrate the applicability of this framework to multicolor flow-cytometry and RNA-seq data. Applied to a stem cell system that models ventral neural tube patterning, we recover a family of morphogen-dependent landscapes whose valleys align with canonical neural progenitor types. Remarkably, simple linear interpolation between landscapes captures signaling dependence, and chaining landscapes together reveals irreversible behavior following transient morphogen exposure. Our method combines the interpretability of landscape models with a direct connection to data, providing a general framework for understanding and controlling developmental dynamics.
GPT-4o mini: Non-social science research article
Deciphering precursor cell dynamics in esophageal preneoplasia via genetic barcoding and single-cell transcriptomics
Jinho Jang, Kyung-Pil Ko, Jie Zhang, Sohee Jun, Jae-Il Park
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Although histologically normal, esophageal preneoplastic cells harbor early genetic alterations and likely exhibit lineage plasticity. However, their origins and trajectories remain unclear. To address this, we combined genetic barcoding with single-cell RNA sequencing to trace the lineage of esophageal preneoplastic cells. We identified a distinct progenitor-like cell population with high plasticity. Through a scoring system, these high-plasticity cells are mapped, revealing their contributions to proliferative and basal cell populations. This approach uncovers molecular markers, including Nfib and Qk , that define these precursor cells, validated by spatial transcriptomics and a Trp53 Cdkn2a Notch1 mouse model. These findings provide critical insights into early tumorigenesis, highlighting the potential of precursor cells as biomarkers for early detection and therapeutic targets of esophageal squamous cell cancer. By elucidating the cellular dynamics underlying esophageal preneoplasia, this research lays the foundation for strategies to prevent malignant progression, offering broader implications for improving cancer diagnostics and treatment approaches.
GPT-4o mini: Non-social science research article
Measuring the Young’s modulus of individual lithium whiskers
Wenbo Zhai, Hongsheng Shi, Wei Liu, Yi Yu
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The primary challenge hindering widespread adoption of lithium (Li) anodes is the safety risks of short circuits owing to the penetration of Li whiskers, where their mechanical property plays a crucial role. However, measurement of the overall Young’s modulus of individual Li whiskers with solid electrolyte interphase (SEI) remains elusive. Here, via an in situ electric-field-induced resonance method, the Young’s modulus of individual electrochemically deposited Li whiskers along <211> is measured to be 3.2 ± 0.2 GPa in a transmission electron microscope, lower than that of pure Li metal, suggesting that hard short circuits induced by mechanical penetration are expected to have a low probability of occurrence. Quantitative analysis reveals that a simple linear combination of the Young’s moduli of pure Li metal and the SEI, based on a linear mixed model, fails to account for the reduced Young’s modulus. With the aid of atomic-level imaging and simulations, the lower value is ascribed to intricate interfacial microstructures, including highly-crystalline-Li|poorly-crystalline-Li, Li|Li 2 O, Li|organic, and others.
GPT-4o mini: Non-social science research article
Glycoside hydrolase–mediated glucomannan catabolism in Segatella copri , a target of microbiota-directed foods for malnourished children
Cyrus Zhou, Matthew C. Hibberd, Evan M. Lee, Bo Pilgaard, Marlene Vuillemin, Emma Kiehn, Suzanne Henrissat, Marie A. Crane, Jiye Cheng, Lara Pfaff, Anne S. Meyer, Jesper Holck, Nicolas Terrapon, Juan J. Castillo, Garret Couture, Carlito B. Lebrilla, Dmitry A. Rodionov, Michael J. Barratt, Bernard Henrissat, Jeffrey I. Gordon
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Evidence is emerging that perturbed postnatal gut microbiota development is causally related to childhood undernutrition. Clinical trials in undernourished Bangladeshi children found that a polysaccharide-rich, microbiota-directed complementary food (MDCF-2) designed to repair this perturbation produced superior ponderal and linear growth compared to a standard ready-to-use supplementary food. Subsequent analyses disclosed several candidate bioactive polysaccharides in the MDCF and their bacterial targets, notably strains of Segatella copri that possess carbohydrate-active enzymes (CAZymes) organized into polysaccharide utilization loci (PULs) targeting these glycans. A Bangladeshi S. copri isolate (BgF5_2) containing these PULs metabolized MDCF-2 glycans and promoted MDCF-dependent weight gain in a gnotobiotic mouse model emulating the clinical trials. Identifying prebiotic mixtures that mimic the effects of MDCF-2 would offer new options for treatment and prevention. Here, we describe a CAZyme-based approach to characterize the effects of glucomannan, a component of MDCF obtainable from sustainable sources, on growth and gene expression in S. copri BgF5_2 in vitro and in gnotobiotic mice. Biochemical characterization of purified CAZymes expressed by two of its MDCF-2 and glucomannan-targeted PULs disclosed a multifunctional GH26|GH5_4 CAZyme, inducible by glucomannan, that degrades several bioactive MDCF-2 glycans; glucomannan, arabinoxylan, xyloglucan, and mixed-linkage ÎČ-glucan. Our data suggest that this CAZyme functions as a multisubstrate “sentinel” that can produce diverse oligosaccharides from a variety of ÎČ-linked glycans, with each oligosaccharide able to induce corresponding PULs and non-PUL enzymes. This observation, plus the restricted distribution of the multifunctional CAZyme among S. copri strains, may partially explain strain responsiveness to MDCF-2.
GPT-4o mini: Non-social science research article
Guiding esophagectomy with intraoperative NIR-II fluorescence video imaging and rapid computation
Feifei Wang, Ian Yu Hong Wong, Haoran Liu, Zhisheng Wu, Claudia Lai Yin Wong, Danyang Xu, Desmond Kwan Kit Chan, Betty Tsz Ting Law, Fion Siu Yin Chan, Liangqiong Qu, Simon Ying Kit Law, Hongjie Dai
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Preclinical shortwave infrared/near-infrared II (SWIR/NIR-II, 1,000 to 3,000 nm) fluorescence imaging has shown superior contrast, resolution, and penetration depth compared to traditional near-infrared I (NIR-I, 700 to 900 nm) imaging, owing to reduced light scattering and tissue autofluorescence. Here, we carried out clinical translation of NIR-II fluorescence imaging to guide esophagectomy through intraoperative video imaging and rapid analysis of blood perfusion in the gastric conduits (GC) of esophageal cancer patients, following intravenous administration of indocyanine green (ICG). Within <1 min, NIR-II video imaging clearly visualized the spatial and temporal blood flow features, and importantly, intraoperative principal component analysis (PCA) of the video revealed distinct perfusion patterns in GC. This led to rapid, subjective decision-making for targeted resection of poorly perfused tissue and informed reconstruction of the GC to reduce the risk of life-threatening anastomotic leakage. This approach enhances surgical precision and improves outcomes by providing operator-independent intraoperative guidance.
GPT-4o mini: Non-social science research article
Structural insights into the role of eIF3 in translation mediated by the HCV IRES
Wakana Iwasaki, Kazuhiro Kashiwagi, Ayako Sakamoto, Madoka Nishimoto, Mari Takahashi, Kodai Machida, Hiroaki Imataka, Akinobu Matsumoto, Yuichi Shichino, Shintaro Iwasaki, Koshi Imami, Takuhiro Ito
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The genomes of various RNA viruses and a subset of human genes contain structured RNA elements termed internal ribosomal entry sites (IRESs) to initiate translation in a cap-independent manner. The well-studied IRES from Hepatitis C virus (HCV) binds to eukaryotic initiation factor 3 (eIF3), but how the HCV IRES harnesses eIF3 for viral translation remains unclear. Here, we determined multiple cryo-EM structures in which the HCV IRES binds simultaneously to the ribosome and eIF3, covering steps from initiation to elongation. The eIF3 core subunits are displaced from the ribosome by binding more tightly to subdomain IIIb of the HCV IRES. However, cross-linking mass spectrometry suggested that the eIF3 noncore subunits in the HCV-IRES-mediated elongation complex remain in similar positions on the ribosome to those observed in the cap-mediated initiation complex. This currently determined configuration of eIF3 core and noncore subunits reveals the mechanisms through which the HCV IRES overcomes the competition with the host mRNA and promotes viral mRNA translation by utilizing eIF3. Interestingly, cryo-EM structures also revealed that the N-terminal domain of the eIF3 c-subunit (eIF3c-NTD) binds to the large ribosomal subunit (60S) during elongation. These findings suggest that eIF3 contributes to HCV IRES–mediated translation not only during initiation but also elongation and potentially in reinitiation. The interaction between the eIF3c-NTD and the 60S ribosome is likely to occur in general translation processes as well, contributing to 60S joining or eIF3 stabilization on the elongating ribosome.
GPT-4o mini: Non-social science research article
Correction for Greenberg et al., Sex and age differences in “theory of mind” across 57 countries using the English version of the “Reading the Mind in the Eyes” Test
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GPT-4o mini: Non-social science research article
Something from nothing: The birth of new phage defense genes
Kevin J. Forsberg
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GPT-4o mini: Non-social science research article
Warming from cold pools: A pathway for mesoscale organization to alter Earth’s radiation budget
Pouriya Alinaghi, Martin Janssens, Fredrik Jansson
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Marine shallow cumulus clouds have long caused large uncertainty in climate projections. Such “trade cumuli” frequently organize into mesoscale (10 to 500 km) structures, through two processes that couple the clouds to shallow mesoscale circulations: i) mesoscale moisture aggregation and ii) cold pools, driven by mesoscale rain evaporation beneath the mesoscale cloud structures. Since global climate models do not capture these mesoscale processes, while the degree of mesoscale organization is observed to correlate to shortwave cooling, it has been suggested that mesoscale processes modulate contemporary estimates of cloud response to global warming. Here, we show that introducing mesoscale dynamics can indeed substantially alter top-of-the-atmosphere radiative budget, if the balance between the two circulations is upset. By homogenizing mesoscale rain evaporation patterns, we suppress the formation and effects of cold pools in a large ensemble of large-domain, large-eddy simulations. The experiments reveal that cold pool dynamics reduce mesoscale ascent in the cloud systems, thereby arresting a runaway self-aggregation of moisture into very moist, cloudy regions that occurs without them. This reduces the net rainfall of the cumulus fields, moistens the cloud layer and thus reduces the emission of clear-sky longwave radiation to space, giving an ensemble-averaged warming of 1.88 W/m 2 . Our results highlight that the proper interplay between mesoscale processes is critical for capturing radiative budgets-especially in kilometer-scale climate models that only partially resolve shallow cumulus aggregation and cold pools.
GPT-4o mini: Non-social science research article
Versatile NTP recognition and domain fusions expand the functional repertoire of the ParB-CTPase fold beyond chromosome segregation
Jovana Kaljević, Kirill V. Sukhoverkov, Katie E. Johnson, Antoine Hocher, Tung B. K. Le
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Nucleotide triphosphate (NTP)-dependent molecular switches regulate essential cellular processes by cycling between active and inactive states through nucleotide binding and hydrolysis. These mechanisms were long thought to rely exclusively on ATPase or GTPase proteins, until the discovery of CTPase activity in the bacterial chromosome segregation protein ParB. In the ParAB S system, CTP binding enables ParBs’ accumulation around the centromere-like parS DNA sites to activate the ATPase ParA, thereby facilitating chromosome partitioning to daughter cells. CTP hydrolysis then releases ParB from DNA for recycling. This discovery uncovered a new regulatory principle, but the broader diversity of proteins employing a CTPase mechanism remains unclear. Here, we conduct a large-scale survey of proteins harboring the ParB-CTPase fold across bacteria, archaea, bacteriophages, and eukaryotes. While many ParB-like proteins follow the canonical ParAB S organization with ParA partners, we also identify numerous orphan homologs encoded outside of the parAB operon, frequently linked to mobile genetic elements that may have driven their rapid diversification. The ParB-CTPase folds in these divergent proteins are often fused to lineage-specific domains with diverse predicted biological activities. We further demonstrate that while many homologs retain CTP-binding, others instead bind ATP or GTP, revealing a broader spectrum of nucleotide specificities than previously appreciated. Our findings establish the ParB-CTPase fold as a widely distributed and evolutionarily versatile NTP-binding module, repeatedly co-opted through domain fusion and shifts in nucleotide specificity to enable functions far beyond the classical ParAB S -mediated DNA segregation.
GPT-4o mini: Non-social science research article
A targeted combination therapy achieves effective pancreatic cancer regression and prevents tumor resistance
Vasiliki Liaki, Sara Barrambana, Myrto Kostopoulou, Carmen G. Lechuga, Elena Zamorano-Dominguez, Domingo Acosta, Lucia Morales-Cacho, Ruth Álvarez, Pian Sun, Blanca Rosas-Perez, Rebeca Barrero, Silvia Jiménez-Parrado, Alejandra López-García, Marta San Roman, Juan Carlos López-Gil, Matthias Drosten, Bruno Sainz, Monica Musteanu, Eduardo Caleiras, Nelson Dusetti, Valeria Poli, Francisco Sånchez-Bueno, Carmen Guerra, Mariano Barbacid
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Pancreatic ductal adenocarcinoma (PDAC) has one of the lowest cancer survival rates. Recent studies using RAS inhibitors have opened the door to more efficacious therapies, although their beneficial effect is still limited mainly due to the rapid appearance of tumor resistance. Here, we demonstrate that genetic ablation of three independent nodes involved in downstream (RAF1), upstream (EGFR), and orthogonal (STAT3) KRAS signaling pathways leads to complete and permanent regression of orthotopic PDACs induced by KRAS/TP53 mutations. Likewise, a combination of selective inhibitors of KRAS (RMC-6236/daraxonrasib), EGFR family (afatinib), and STAT3 (SD36) induced the complete regression of orthotopic PDAC tumors with no evidence of tumor resistance for over 200 d posttreatment. This combination therapy also led to significant regression of genetically engineered mouse tumors as well as patient-derived tumor xenografts (PDX) in the absence of tumor relapses. Of importance, this combination therapy was well tolerated. In sum, these results should guide the development of new clinical trials that may benefit PDAC patients.
GPT-4o mini: Non-social science research article
Deciphering guanidine assimilation and riboswitch-based gene regulation in cyanobacteria for synthetic biology applications
M. Amadeus ItzenhĂ€user, Andreas M. Enkerlin, Jan A. Dewald, Bihter AvƟar, Ron Stauder, Hannes Halpick, Rosalie Schaale, Lisa M. Baumann, Noelia Fernandez Merayo, Thomas Maskow, Khaled A. Selim, Christina E. Weinberg, Stephan KlĂ€hn
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Guanidine is well known as a denaturing agent. However, recent studies have demonstrated both the widespread synthesis of guanidine, e.g., in plants and mammals, as well as the widespread occurrence of guanidine metabolism in bacteria, suggesting a broader biological role. Here, we provide insights into guanidine assimilation via guanidine hydrolases (GdmH) in cyanobacteria. The gdmH gene is widespread among cyanobacteria and enables growth on guanidine as the sole nitrogen source. Consistent with this, gdmH gene expression increased under nitrogen limitation, regulated by the transcription factor NtcA. However, guanidine is toxic above 5 mM, necessitating GdmH activity and adaptive mutations activating the multidrug efflux system PrqA. The gdmH gene is frequently colocalized with ABC transporter genes (named gimABC ), which are driven by an additional NtcA-regulated promoter. The corresponding substrate-binding protein GimA showed high affinity to guanidine. Consistent with a high affinity import system, disruption of genes gimA or gimB impaired guanidine-dependent growth of Synechocystis sp. PCC 6803 at low concentrations. However, in presence of >1 mM guanidine, these mutants grew like wildtype, suggesting the existence of additional uptake mechanisms for guanidine. We also demonstrate the high-affinity binding of guanidine to a previously described, conserved RNA motif located within the gdmH 5’-untranslated region, validating it as a guanidine-I riboswitch. By combining it with various promoters, we achieved precise, titratable control of heterologous gene expression in cyanobacteria in vivo. Our findings establish guanidine assimilation as an integral element of cyanobacterial nitrogen metabolism and highlight guanidine riboswitches as valuable tools for synthetic biology.
GPT-4o mini: Non-social science research article
Structural modeling reveals the allosteric switch controlling the chitin utilization program of Vibrio cholerae
Holly S. Anderson, Ankur B. Dalia
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Signal transduction by histidine kinases (HKs) is nearly ubiquitous in bacterial species. HKs can either sense ligands directly or indirectly via a cognate solute-binding protein (SBP). The molecular basis for SBP-dependent signal reception, however, remains poorly understood in most cases. CBP and ChiS are the SBP–HK pair that activate the chitin utilization program of Vibrio cholerae . Here, we elucidate the molecular basis for allosteric regulation of CBP–ChiS by generating structural models of this complex in the unliganded and liganded states, which we support with extensive genetic, biochemical, and cell biological analysis. Our results reveal that ligand-binding induces a large conformational interface switch that is distinct from previously described SBP–HKs. Structural modeling suggests that similar interface switches may also regulate other uncharacterized SBP–HKs. Together, these results extend our understanding of signal transduction in bacterial species and highlight an approach for uncovering the molecular basis of allostery in protein complexes.
GPT-4o mini: Non-social science research article
Distinct transcription factor interactions drive HOXB13 activity in different stages of prostate cancer
Betul Ersoy-Fazlioglu, Shreyas Lingadahalli, Umut Berkay Altintas, Ahmet Cingoz, Emirhan Tekoglu, Ivan Pak Lok Yu, Meric Dikbas, Olka Missaghimamaghani, Kerim Yavuz, Hans Adomat, Ibrahim Kulac, Tunc Morova, Kevin Xiao, Martin Gleave, Ladan Fazli, Paloma Cejas, Artem Cherkasov, Wilbert Zwart, Michael Christoph Haffner, Henry W. Long, Colin Collins, Tugba Bagci-Onder, Nathan A. Lack
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HOXB13 is a lineage-specific transcription factor that plays a critical role in initiation and progression of prostate cancer (PCa). While most research has focused on the role of HOXB13 on androgen receptor (AR) activity, here we demonstrate that HOXB13 is frequently expressed in AR-negative tumors and is essential for the proliferation of both AR-positive and -negative PCa models. Strikingly, HOXB13 is remarkably selective and has almost no effect on nonprostatic tissues. Despite this common essentiality in PCa, HOXB13 activity is markedly different in AR-negative stem cell–like tumors, where interactions with the AP-1 change the HOXB13 cistrome and interactome. Yet despite these distinct activities, HOXB13 activity is commonly mediated by SMARCD2, a member of the mSWI/SNF chromatin remodeling complex. The HOXB13/SMARCD2 interaction alters chromatin accessibility at HOXB13-binding sites, causing increased proliferation in AR-negative PCa. Overall, this work demonstrates a distinct mechanism of action for HOXB13 and highlights its critical role in AR-negative castration-resistant PCa.
GPT-4o mini: Non-social science research article
Conscious awareness, sensory integration, and evidence accumulation in bodily self-perception
Renzo C. Lanfranco, Sucharit Katyal, August HĂ€gerdal, Xiaole Luan, Victoria Nos, H. Henrik Ehrsson
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Conscious awareness refers to the subjective experience of perceiving, thinking, and feeling and the ability to report these experiences. These perceptions and thoughts are experienced as bound to an individual self. A fundamental aspect of this self-consciousness is the sense of bodily self—the experience of one’s physical presence distinct from the external world, serving as the spatial reference point for conscious perceptions. A key component of the bodily self is body ownership, the experience of the body as one’s own. Research shows this sense involves integrating signals from different sensory modalities, including vision, touch, and proprioception, into a coherent multisensory percept. However, the relationship between body ownership and conscious awareness remains unclear. To investigate this, we developed a psychophysical paradigm to objectively quantify multisensory integration, conscious awareness, and their relationships within a bodily illusion manipulating body ownership perception. Using signal-detection analysis, metacognitive computational modeling, and drift–diffusion modeling, we found conscious awareness reports closely matched objective discrimination of body ownership. This relationship remained consistent across different levels of multisensory integration and evidence accumulation. A visuotactile control experiment revealed that this strong conscious access is specific to body ownership, not general to multisensory integration. These findings suggest that conscious awareness has continuous and prioritized access to body ownership, implying that the self-related form of multisensory integration supporting body ownership is largely implemented at the level of conscious processing. This provides theoretical insight into how conscious awareness and the bodily self are intertwined, with wide-reaching implications for consciousness and body representation research.
GPT-4o mini: Non-social science research article
TGFBR2 coordinates the endometrial response to estrogen, regulating endometrial hyperplasia and fertility
Sydney E. Parks, Suni Tang, Anna Catherine Unser, Ananya L. Bhonsley, Eunbi M. Chung, Peixin Jiang, Audrey Savolainen, Vanessa J. Joseph, Dominique I. Cope, Ramya P. Masand, Renata Prunskaite-HyyrylÀinen, Diana Monsivais
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Proper endometrial function is critical for establishing and maintaining healthy pregnancies, as well as preventing the pathogenesis of conditions such as endometrial hyperplasia and endometrial cancer. The TGFÎČ signaling pathway regulates key aspects of endometrial biology, although the direct effects of many individual receptors remain unstudied. In this study, we characterize the role of TGFÎČR2 within the endometrium using a progesterone receptor-cre conditional knock-out mouse model ( Tgfbr2 flox/flox ; Pg r cre/+ ; “ Tgfbr2 cKO”). We found that conditional deletion of TGFÎČR2 resulted in female infertility, endometrial hyperplasia, altered estrogen and progesterone response, and, only in bred females, reproductive tract tumors. Pregnancy abnormalities in these females began in the prereceptive and implantation stages and compounded throughout gestation, presenting errors in decidualization, immune cell invasion, and early spiral artery formation. Tgfbr2 cKO females had endometrial epithelial hyperplasia at 13 to 14 wk of age, with a significant and region-specific reduction in glandular FOXA2 expression. While this hyperplasia did not advance to malignancy in virgin females, Tgfbr2 cKO females continuously bred for 6 mo all presented with reproductive tract tumors at the time of collection. Mechanistically, we show signaling via TGFÎČR2 attenuates estrogen signaling while bolstering progesterone signaling in the endometrial epithelium. By integrating ER and SMAD4 genome-wide binding studies with transcriptomic datasets, we demonstrate that both ER and SMAD4 are required for Pgr transcription. In this study, we highlight the importance of TGFÎČR2 in endometrial function and female fertility and shed light on the potential involvement of TGFÎČ signaling in estrogen and progesterone response regulation during early pregnancy.
GPT-4o mini: Non-social science research article
Volcanic forcing of the Lomagundi–Jatuli carbon isotope excursion
Janne Blichert-Toft, Kurt Konhauser, Baptiste Coutret, Marine Pinto, Arnaud Agranier, Abderrazzak El Albani, Francis AlbarĂšde
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The Lomagundi–Jatuli Event (LJE), Earth’s most pronounced and prolonged positive carbon isotope excursion, followed the Great Oxidation Event and remains enigmatic in origin. We present a Pb–Pb isochron age of 2,194 ± 5 Ma for black shales from the Francevillian FB Formation, Gabon—an LJE type locality—coinciding with the emplacement of the Large Igneous Province that gave rise to the extensive Birimian–Eburnean orogenic segment. This orogeny produced very large volumes of juvenile crust in the form of oceanic plateau basalts that were eventually reworked through subduction and collisions. These processes released substantial volcanic CO 2 into the ocean–atmosphere system, disrupting the carbon and oxygen cycles for 100 to 200 My. Volcanic outgassing likely outpaced alkalinity production from weathering, leading to an increase in the ÎŽ 13 C of sedimentary carbonates. Reanalysis of global ÎŽ 13 C–ή 18 O datasets reveals a previously unrecognized dual bimodality, attributed here to episodic volcanic degassing and subsequent oceanic carbonate saturation. Weathering of emergent crust enhanced nutrient fluxes, driving primary productivity and organic carbon burial. We further propose that volcanic CO 2 emissions modulated the Dole Effect by shifting the balance between terrestrial and marine photosynthetic oxygen production, altering atmospheric oxygen isotope ratios independently of climate. These processes collectively drove the ÎŽ 13 C excursion of the LJE and may have fostered conditions conducive for early eukaryotic evolution.
GPT-4o mini: Non-social science research article
S-cone-specific circuitry in the outer plexiform layer of a cone-dominant mammal
Yizhen Zhang, Shan Chen, Haohua Qian, Wei Li, John M. Ball
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In the vertebrate retina, short wavelength-sensitive S-cones and their downstream interneurons play unique roles in both image forming and non-image-forming vision. Due to their conserved relative rarity in the retina and the high density of rods found in many model species, S-cone circuitry is challenging to examine in detail. Here, we combine electrophysiology, high-quality 3D electron microscopy reconstruction, and electroretinography to characterize in fine detail the S-cone selective circuitry in the outer plexiform layer (OPL) of the cone-dominant retina of the thirteen-lined ground squirrel (13-LGS). The 13-LGS retina has no S-OFF bipolar cell, and both horizontal cell types show distinct S-cone preferences. Signal processing in the 13-LGS OPL appears to have evolved for separate channels that independently modulate synaptic sensitivity of S- and M-cone networks.
GPT-4o mini: Non-social science research article
Machine learning enables de novo multiepitope design of Plasmodium falciparum circumsporozoite protein to target trimeric L9 antibody
J. Andrew D. Nelson, Samuel E. Garfinkle, Zi Jie Lin, Joyce Park, Amber J. Kim, Kelly Bayruns, Madison E. McCanna, Kylie M. Konrath, Colby J. Agostino, Daniel W. Kulp, Audrey R. Odom John, Jesper Pallesen
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Currently approved vaccines for the prevention of malaria provide only partial protection against disease due to high variability in the quality of induced antibodies. These vaccines present the unstructured central repeat region, as well as the C-terminal domain, of the circumsporozoite protein ( Pf CSP) of the malaria parasite, Plasmodium falciparum [K. L. Williams et al ., Nat. Med. 30 ,1–13 (2024)]. A recently discovered protective monoclonal antibody, L9, recognizes three structured copies of the Pf CSP minor repeat. Similarly to other highly potent antimalarial antibodies, L9 relies on critical homotypic interactions between antibodies for its high protective efficacy [P. Tripathi et al. , Structure 31 , 480–491.e4 (2023); G. M. Martin et al. , Nat. Commun. 14 ,2815 (2023)]. Here, we report the design of antigens scaffolding one copy of Pf CSP’s minor repeat capable of binding L9. To design antigens capable of presenting multiple, structure-based epitopes in one scaffold, we developed a machine learning– driven structural antigen design pipeline, MESODID, tailored to focus on multiepitope vaccine targets. We use this pipeline to design multiple scaffolds that present three copies of the Pf CSP minor repeat. A 3.6 Å cryo-EM structure of our top design, minor repeat targeting immunogen (M-TIM), demonstrates that M-TIM successfully orients three copies of L9, effectively recapitulating its critical homotypic interactions. The wide prevalence of repeated epitopes in key vaccine targets, such as HIV-1 Envelope, SARS-CoV-2 spike, and Influenza Hemagglutinin, suggests that MESODID will have broad utility in creating antigens that incorporate such epitopes, offering a powerful approach to developing vaccines against a range of challenging infections, including malaria.
GPT-4o mini: Non-social science research article
Genome of venomous caterpillar Doratifera vulnerans reveals recruitment of immune peptides and their adaptation as pain-inducing toxins
Mohaddeseh H. Goudarzi, Samuel D. Robinson, Fernanda C. Cardoso, Kushal Suryamohan, Nicole Lawrence, David A. Eagles, Huy N. Hoang, Irina Vetter, David P. Fairlie, Somasekar Seshagiri, Glenn F. King, Andrew A. Walker
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Gene duplication followed by adaptation to new selection pressures has been proposed to be of central importance in the evolution of venom toxins. Coupling high-quality genome data with quantitative bioactivity readouts can be used to understand how venom toxins evolved, but such studies are rare. Here, we report a near chromosomal-level genome assembly for Doratifera vulnerans (Lepidoptera: Limacodidae), which is venomous in the larval stage. We identify 115 gene loci that produce the polypeptide toxins in venom, including numerous multigene families as well as single-copy genes. Previously described membrane-permeabilizing peptides that cause pain are shown to be encoded by a gene cluster on chromosome 7 that also encodes multiple members of the cecropin family, which are insect innate immunity peptides. These data reveal the origin of defensive toxins from immune peptides followed by strong sequence divergence driven by positive selection pressures. Dv13, which is present as a trace component in the venom, and which has sequence features conserved with canonical cecropin A, potently inhibited the growth of Gram-negative bacteria and fungi, but only weakly permeabilized the membranes of mammalian neurons with EC 50 values >100 ”M. In contrast, peptides Dv11 and Dv12 are abundant in the venom, have sequence features divergent from Dv13, and potently disrupt mammalian neuronal membranes with EC 50 values as low as 190 nM, but have reduced antimicrobial activity. These data provide evidence for the adaptation of innate immune peptides as specialized defensive venom toxins and provide a natural experiment informing the structure–activity relationships of cecropin family peptides.
GPT-4o mini: Non-social science research article
A ferritin-like diiron oxygenase BioE initiates bacterial biotin synthesis, a promising antivirulence target
Yongchang Xu, Meng Zhang, Yingying Fu, Xiaoqiang Yang, Man Huang, Qiuying Qin, Yanhua Kang, Xinyu Su, Jiaming Fang, J. Martin Bollinger, Zhi Ruan, Youjun Feng
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Biotin is an essential enzyme cofactor for intermediary metabolism, and its importance is reflected by the multiplicity of bacterial pathways to its universal precursor, pimelic acid. Here, we report identification of a fourth pimeloyl pathway in the rare but clinically important pathogens Elizabethkingia and Chryseobacterium . This pathway is encoded by two associated structural genes, bioE and bioL . BioE is a ferritin-like nonheme diiron oxygenase that oxidatively cleaves saturated C n (n = 14, 16, 18) fatty acyl coenzyme A (CoA) or acyl carrier protein (ACP) substrates to pimeloyl-CoA/ACP and the free C n-7 acid. The catalytic activity was demonstrated by both in vitro enzymatic assays and the capacity of the bioE gene to complement the genetic defect of an Escherichia coli biotin indicator strain that cannot produce the pimeloyl precursor. BioL, an unusual MocR-type bifunctional transcription factor, negatively regulates bioE expression in response to binding of the downstream intermediate 7-keto-8-aminopelargonic acid. Disruption of bioE in Elizabethkingia meningoseptica and Chryseobacterium indologenes makes them auxotrophic for biotin, impairs biofilm formation, and attenuates bacterial infectivity. Taken together, our findings expand enzymatic diversity of biotin biosynthesis and suggest that selective inhibition of this BioE pathway could provide a therapeutic strategy against recalcitrant nosocomial infections caused by these multidrug-resistant pathogens.
GPT-4o mini: Non-social science research article
The prion-like characteristic of ORF3 contributes to virion release and pathogenesis of hepatitis E virus
Yajing Wang, Houlu Tian, Na Shi, Chunyan Wu, Yaowei Huang, Yongling Yang, Qiang Ding, Xu Zheng, Qin Zhao, Zhaonong Hu, Jiaojiao Luo, Lele Feng, Lingdong Xu, Mick F. Tuite, Hongying Chen, Yuchen Nan
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Hepatitis E virus (HEV), the causative agent of hepatitis E, is threatening public health globally. Due to the shortage of efficient in vitro cell culture systems and in vivo model, the viral replication and pathogenesis mechanisms remain largely unknown. Here, we found that HEV-ORF3 protein showed prion-like properties in HEV-infected cells and existed as both monomer and SDS-resistant aggregate forms. In an in vitro cell-free model, incubation of ORF3 monomer with its aggregates could effectively convert ORF3 monomer into aggregates, mirroring a typical characteristic of prion. In addition, the prion domain (PrD) of a classic yeast prion Sup35 could be functionally replaced by full-length HEV-ORF3 or its N-terminal candidate PrD (cPrD). An F10S substitution in the ORF3-cPrD impaired HEV-ORF3 aggregation propensity and blocked the function of ORF3 in enhancing the stability of microtubules in HEV-infected cells, thus led to the inhibition of viral capsid translocation to microtubules and virion release from infected cells. In Mongolian gerbil models, HEV bearing ORF3F10S mutation demonstrated attenuated virulence in vivo compared with wild-type HEV, as evidenced by reduced viremia and viral shedding, as well as alleviated pathological changes of liver tissue in gerbils infected by HEV-ORF3F10S mutant. In conclusion, our data suggest that HEV-ORF3 is a prion-like protein which is involved in viral capsid translocation and virion release, supporting the hypothesis that the self-propagating properties of prion proteins or prion-like proteins are widely exploited in nature and play diverse roles in physiological function.
GPT-4o mini: Non-social science research article
Intercellular diffusion of cyclic nucleotides followed by gap junction closure restarts meiosis in mouse preovulatory follicles
Iris F. Nakashima, Haining Zhong, Viacheslav O. Nikolaev, Corie M. Owen, Siu-Pok Yee, Laurinda A. Jaffe, Jeremy R. Egbert
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Signaling by luteinizing hormone (LH) in the outer granulosa cells of mammalian ovarian follicles causes meiosis to resume in the oocyte, located ~10 cell layers away, preparing the oocyte for ovulation and fertilization. This long-distance communication is accomplished by cAMP and cGMP diffusion through gap junctions, but knowledge of cAMP dynamics in the oocyte is based on static measurements, and information about cAMP changes in the granulosa cells has not been integrated with information about cAMP changes in the oocyte. By simultaneous multihour imaging of both compartments of live ovarian follicles, using mice expressing an improved cAMP sensor, we elucidate how the meiosis-activating signal is transmitted. In response to LH, cAMP generated in the granulosa cells diffuses within ~10 min to the oocyte. cAMP in the granulosa cells then remains high for at least 5 h, but over a 3-h period, cAMP in the oocyte decreases to a new plateau level below the original baseline. We show that the cAMP decrease in the oocyte depends not only on the established mechanism of LH lowering cGMP in the oocyte, which relieves inhibition of the PDE3A phosphodiesterase in the oocyte, but also on the subsequent LH-induced closure of gap junctions between the granulosa cells. This closure prevents cAMP from diffusing into the oocyte from the granulosa cells, a concept that has been proposed but not previously tested. We conclude that LH coordinates changes in both cGMP and gap junctions to lower cAMP in the oocyte, reinitiating meiotic progression.
GPT-4o mini: Non-social science research article
What does drive temporal variation in population size in mammalian species?
Jean-Michel Gaillard, Nigel Gilles Yoccoz
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GPT-4o mini: Non-social science research article
Control of renal calcium permeability via a tight junctional claudin switch
Rozemarijn E. van der Veen, Marie Bieck, Nacéra Mezouar, Volker Haucke, Henrik Dimke, Martin Lehmann
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Tight junctions seal the paracellular space between epithelial cells, with their claudin (CLDN) composition dictating epithelial permeability properties. In kidney thick ascending limbs, calcium is reabsorbed paracellularly through a meshwork of CLDN16 and CLDN19 polymers. CLDN14 is strongly upregulated by high blood calcium, restricts this paracellular calcium flux, and is linked to kidney stone disease. How CLDN14 controls paracellular calcium flux and structurally incorporates into this complex junction is unknown. Using confocal and super-resolution microscopy, we show that CLDN14 preferentially associates with CLDN19, thereby gradually replacing CLDN16 in the CLDN19 copolymer in vitro and in mice in vivo. The claudin switch depends on CLDN14 polymerization and occurs on a timescale of days via a pathway independent of dynamin-mediated endocytosis. Our findings reveal a mechanism of tight junction regulation, demonstrating how dynamic claudin remodeling within this complex structure controls renal calcium excretion and contributes to kidney stone pathogenesis.
GPT-4o mini: Non-social science research article
Hot electron–driven tandem CO 2 reduction and propane dehydrogenation over plasmonic black gold nanoreactors
Gunjan Sharma, Charvi Singhvi, Girish Mishra, Amitabha Nandi, Götz Schuck, Nico Grimm, Dirk Wallacher, Abhishek Kumar, Pavan Nukala, Sukhendu Nath, Soumya Ghosh, Vivek Polshettiwar
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Catalytic CO 2 reduction into value-added products is an energy-intensive process and typically relies on molecular hydrogen as reductant. Coupling CO 2 reduction with propane dehydrogenation for in situ hydrogen generation presents a sustainable alternative but conventionally demands high temperatures, causing undesirable side reactions such as cracking and coke formation. Here, we demonstrate a nonthermal catalytic pathway driven by hot electrons generated via localized surface plasmon resonance. Using a plasmonic catalyst comprising Ga–Ni–Mn active sites anchored on broadband plasmonic “black gold,” we achieve tandem CO 2 reduction and propane dehydrogenation under visible-light irradiation. The catalyst consistently produces equimolar amounts (~1,600 ”mol g −1 h −1 ) of CO and propene under flow conditions, maintaining exceptional stability even after 500 h. Notably, light illumination suppresses undesired side reactions, such as dry reforming of propane, cracking, and coking, preserving a stable stoichiometric ratio of CO and propene. Mechanistic studies, including controlled thermal experiments, Arrhenius analysis, and finite-difference time-domain simulations, confirm that catalytic selectivity and stability originate specifically from plasmon-induced hot electrons rather than photothermal effects. Comprehensive structural characterization using X-ray absorption near-edge structure and extended X-ray absorption fine structure, in situ diffuse reflectance infrared Fourier transform spectroscopy, ultrafast transient absorption spectroscopy, and density functional theory calculations elucidate that plasmonic excitation promotes advantageous charge-transfer states within Ga–Ni–Mn ensembles, facilitating selective activation of CO 2 and propane. This study establishes hot electron–driven plasmonic catalysis as a distinctive strategy for tandem propane dehydrogenation and circular CO 2 utilization under mild conditions.
GPT-4o mini: Non-social science research article
Prostaglandin E 2 -EP2/EP4 signaling induces the tumor-infiltrating Treg phenotype for tumor growth
Ryuma Matsuura, Siwakorn Punyawatthananukool, Ryoji Kawakami, Norihisa Mikami, Shimon Sakaguchi, Shuh Narumiya
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Foxp3 + regulatory T cells (Tregs) heavily infiltrate malignant tumors and restrict antitumor immunity. These tumor-infiltrating Tregs (TI-Tregs) adopt a distinct phenotype by expressing a unique set of genes. This TI-Treg gene expression signature is conserved in TI-Tregs across species and tumor types and stages, suggesting the presence of a common inducing mechanism in the tumor microenvironment (TME). However, identity of such a mechanism remains elusive. Here, we show that prostaglandin E 2 (PGE 2 ) produced in TME directly acts on its receptor EP2/EP4 on Tregs to induce the TI-Treg phenotype. PGE 2 added to TCR-activated Tregs induces a set of genes, many of which are included in the TI-Treg signature, in both induced Tregs (iTregs) and naturally occurring Tregs (nTregs) via EP2/EP4- cAMP-PKA pathway. Concomitantly, PGE 2 -treated Tregs exhibit potent suppressive activity to CD8 + T cells and strongly inhibit their proliferation in an EP4 dependent manner. Consistently, selective loss of EP2 and EP4 in mouse Tregs reduces expression of those genes in Tregs infiltrating Lewis lung carcinoma 1 (LLC1) mouse tumor and significantly delays the tumor progression. In human FOXP3 + iTregs, PGE 2 -EP4 signaling upregulated the expression of Treg signature genes, FOXP3, CD25, and CTLA-4 as well as a typical TI-Treg signature gene, 4-1BB, and enhanced suppressive activity. Furthermore, analysis of single-cell RNA sequencing of nasopharyngeal cancer patients demonstrates preferential expression of the TI-Treg signature genes in Tregs infiltrating the PTGS2 hi tumor group compared to the PTGS2 lo tumor group. These findings suggest that PGE 2 -EP2/EP4 signaling is one of the core mechanisms inducing the TI-Treg phenotype in TME for tumor growth.
GPT-4o mini: Non-social science research article
Precancer exercise capacity and metabolism during tumor development coordinate the skeletal muscle–tumor metabolic competition
Brooks P. Leitner, Andin E. Fosam, Won D. Lee, Kaylee Zilinger, Susana C. B. R. Nakandakari, Xinyi Zhang, Rafael C. Gaspar, Wanling Zhu, Curtis J. Perry, Joshua D. Rabinowitz, Rachel J. Perry
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Higher exercise capacity and regular exercise training improve cancer prognosis at all stages of disease. However, the metabolic adaptations to aerobic exercise training that mediate tumor–host interactions are poorly understood. Here, we demonstrate that voluntary wheel running slows tumor growth and repartitions glucose uptake and oxidation to skeletal and cardiac muscle and away from breast and melanoma tumors in mice. Further, prehabilitation induces repartitioning of glucose metabolism in obese mice: Uptake and oxidation of glucose are enhanced in skeletal and cardiac muscle, and reduced in tumors. These increases in muscle glucose metabolism and reductions in tumor glucose metabolism, correlated with slower tumor progression. Using [U- 13 C 6 ] glucose infusion, we show that exercise increases the fractional contribution of glucose to oxidative metabolism in muscle while reducing it in tumors, suggesting that aerobic exercise shifts systemic glucose metabolism away from the tumor microenvironment and toward metabolically active tissues. Transcriptional analysis revealed downregulation of mTOR signaling in tumors from exercised mice. Collectively, our findings suggest that voluntary exercise may suppress tumor progression by enhancing host tissue glucose oxidation and limiting tumor glucose availability, supporting a model in which exercise-induced metabolic competition constrains tumor energetics.
GPT-4o mini: Non-social science research article
Torque-generating units of the bacterial flagellar motor are rotary motors
Basarab G. Hosu, Alina M. Vrabioiu, Aravinthan D. T. Samuel
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Escherichia coli swims using helical flagellar filaments driven at their base by a rotary motor. Torque-generating “stator” units drive the bacterial flagellar motor by transmitting mechanical power to a cytoplasmic “rotor,” the C-ring. Each stator unit is a proton-conducting heteromer. A central dimer of two MotB proteins anchors to the cell wall. A surrounding pentamer of five MotA proteins transmits mechanical power to the C-ring. This asymmetrical 5:2 structure is consistent with rotation as the mechanism of torque generation. Here, we test the hypothesis that the MotA 5 MotB 2 stator units are rotary motors themselves and interact with the rotor like intermeshed gearwheels, where rotation of the C-ring is directly coupled to MotA 5 rotation around the MotB 2 . We used in vivo polarized photobleaching microscopy. When a subset of fluorescent domains inside a multimer is rapidly photobleached by a strong pulse of polarized light, the induced polarization-dependent fluorescence of unbleached domains becomes a reporter of angular orientation. We applied polarized photobleaching microscopy to tethered cells rotating by single flagellar motors. We probed fluorescently labeled MotA pentamer and MotB dimer calibrated to motor rotation. The MotB dimer rotates at the same angular speed as the cell body, consistent with its anchor to the cell wall. The MotA pentamer rotates ∌ 6.2 × faster than the flagellar motor, revealing the gear ratio between stator and rotor.
GPT-4o mini: Non-social science research article
Correction for Yuan et al., Oil–water interfaces drive gold precipitation via microdroplet chemistry in thermal geological systems
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GPT-4o mini: Non-social science research article
From toroids to helical tubules: Kirigami-inspired programmable assembly of two-periodic curved crystals from DNA origami
Mason Price, Daichi Hayakawa, Thomas E. VidebĂŠk, Rupam Saha, Botond Tyukodi, Seth Fraden, Michael F. Hagan, Gregory M. Grason, W. Benjamin Rogers
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Biology is teeming with intricate molecular structures whose geometries are inextricably linked to their function. A prototypical example is the helical bacterial flagellum, a complex curved crystalline assembly of proteins that the bacterium uses to swim. Because synthetic analogues of these and other curved crystalline assemblies could be valuable platforms for nanotechnologies, including drug delivery and plasmonics, controllable synthesis of variable-curvature structures of diverse material systems, from fullerenes to supramolecular assemblies, has been a long-standing goal. Here, we develop and implement a design strategy to program the self-assembly of a complex spectrum of two-periodic curved crystals with variable periodicity, spatial dimension, and topology, spanning from toroids to achiral serpentine tubules to both left- and right-handed helical tubules. Notably, our design strategy exploits a kirigami-based mapping of a modular class of 2D planar tilings to 3D curved crystals that preserves the periodicity, twofold rotational symmetries, and subunit dimensions by modulating the arrangement of disclination defects. We survey the modular geometry of these curved crystals and infer the addressable interactions required to assemble them from triangular subunits. To demonstrate this design strategy in practice, we program the self-assembly of toroids, helical, and serpentine tubules from DNA origami subunits, deriving the distinct kirigami foldings of a single two-periodic planar tiling. A simulation model of the assembly pathways reveals physical considerations for programming the geometric specificity of the intersubunit angles in the curved crystal required to avoid defect-mediated misassembly.
GPT-4o mini: Non-social science research article
Structure of human green cone opsin yields insights into mechanisms underlying the rapid decay of its active, signaling state
Weekie Yao, Jonathan F. Fay, David L. Farrens
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Cone opsins enable daylight vision and color discrimination. Like their dim-light cousin rhodopsin (Rho) found in rod cells, they use a covalently attached retinal ligand to sense light and initiate visual phototransduction by activating G proteins. Unfortunately, we know less about their structural properties, in part because their activated state is unstable—cone opsins release their retinal agonist within seconds after light activation, ~100× faster than Rho. To determine what causes this rapid release and how it affects G protein activation, we solved the structure of active-state, wild-type human green cone opsin (GCO WT ) stabilized with a mini-G protein and then compared its structural and biophysical properties to Rho. Our results reveal unique features in the active-state GCO WT structure. These include i) a larger water channel connected to a larger retinal binding cavity, ii) a larger “hole” near the retinal Schiff base that could facilitate both retinal escape and water access; and iii) a potential anionic residue, E102, that lies within ~3.6 Å of the Schiff base. Our biophysical assays show that neutralizing E102 (mutant GCO E102Q ) slows retinal release (~8×) from the receptor and increases G protein activation. Surprisingly, our kinetic studies suggest that entropic factors are the main cause for the faster retinal release from activated GCO WT . These unique attributes in GCO WT likely facilitate its function in bright daylight. These results support the proposal that rapid retinal release from an active-state cone opsin helps prevent signal saturation and enables rapid resetting of the receptor.
GPT-4o mini: Non-social science research article
Oxidative pentose phosphate pathway is required for T cell activation and antitumor immunity
Zihong Chen, Kellen L. Olszewski, Rolf-Peter Ryseck, Xincheng Xu, Jacob A. Boyer, Christian G. Peace, Yihui Shen, Caroline R. Bartman, Lydia Lynch, Joshua D. Rabinowitz
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Glucose is catabolized by two major metabolic pathways, glycolysis and the oxidative pentose phosphate pathway (oxPPP). The oxPPP generates nicotinamide adenine dinucleotide phosphate (NADPH) at two steps, glucose-6-phosphate dehydrogenase (G6PD), the most common enzyme deficiency in humans, and 6-phosphogluconate dehydrogenase (PGD). Previous literature suggests that G6PD supports but PGD limits T cell–mediated immunity. Here, we use T cell–specific knockout mouse models to show that both enzymes are required for antitumor immunity and response to immunotherapy. PGD knockout depletes mature T cells systemically, while G6PD loss does not reduce basal T cell populations but results in apoptosis upon activation. Such apoptosis is not reversed by major downstream products of the oxPPP, including antioxidants, nucleosides, or fatty acids. Instead, T cells are partially rescued by removal of media cystine, whose reduction requires NADPH. G6PD loss induces an oxidative stress response that upregulates cystine import, which together with low NADPH leads to fatal disulfide stress. Overall, these results highlight an essential role for the oxidative pentose phosphate pathway in cystine homeostasis and T cell–mediated immunity.
GPT-4o mini: Non-social science research article
LHPP expression in triple-negative breast cancer promotes tumor growth and metastasis by modulating the tumor microenvironment
Jeffrey Reina, Queralt Vallmajo-Martin, Jia Ning, Aubrey N. Michi, Kay Yeung, Geoffrey M. Wahl, Tony Hunter
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Triple-negative breast cancer (TNBC) is a highly aggressive and metastatic form of breast cancer that lacks an effective targeted therapy. To identify potential therapeutic targets, we investigated the phosphohistidine phosphatase, LHPP, which has been implicated in the development of several types of cancer. However, the full significance of LHPP in cancer progression remains unclear due to our limited understanding of its molecular mechanism. We found that levels of the LHPP phosphohistidine phosphatase were significantly increased in human breast cancer patients compared to normal adjacent tissues, with the highest levels in the TNBC subtype. When LHPP was knocked out in the MDA-MB-231 human TNBC cell line, cell proliferation, wound healing capacity, and invasion were significantly reduced. However, LHPP knockout in TNBC cells did not significantly affect overall phosphohistidine protein levels. Interestingly, LHPP knockout in MDA-MB-231 cells delayed tumor growth and reduced metastasis when orthotopically transplanted into mouse mammary glands. To investigate LHPP’s role in breast cancer progression, we used next-generation sequencing and proximity-labeling proteomics, and found that LHPP regulates gene expression in chemokine-mediated signaling and actin cytoskeleton organization. Depletion of LHPP reduced the presence of tumor-infiltrating macrophages in mouse xenografts. Our results support a tumor promoter role for LHPP phosphohistidine phosphatase in MDA-MB-231TNBC cells and suggest that targeting LHPP phosphatase could be a potential therapeutic strategy for TNBC.
GPT-4o mini: Non-social science research article
Nitric oxide promotes rapid development of motility to accelerate biofilm dispersal in Vibrio cholerae
Nathaniel C. Esteves, Ran Tao, Qinqin Pu, Arkaprabha Banerjee, Arnold J. T. M. Mathijssen, Jun Zhu
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Bacterial biofilms are resilient multicellular communities that underlie persistent infections and environmental survival. Dispersal from biofilms is a pivotal event for transmission and pathogenesis, yet the host signals and bacterial mechanisms orchestrating this transition remain poorly understood. Here, we show that nitric oxide (NO), a ubiquitous host-derived signaling molecule, acts as a rapid trigger for biofilm dispersal in Vibrio cholerae , a highly motile gram-negative bacterium and the etiologic agent of cholera, by promoting the development of motility. NO exposure induces broad upregulation of flagellar biosynthesis genes, increases flagellin production, and reduces intracellular cyclic-di-GMP levels, thereby priming aflagellated biofilm-associated cells for active swimming and dispersion. Using single-cell imaging in custom microfluidic devices, we directly visualize NO-stimulated biofilm detachment and development of robust swimming motility within minutes. In vivo, biofilm-derived V. cholerae colonize more efficiently in NO-rich environments, and NO produced by epithelial cells enhances bacterial detachment from epithelial surfaces. Our findings reveal a host–pathogen interface in which NO serves as a morphogenetic cue, orchestrating the rapid transition from sessility to motility.
GPT-4o mini: Non-social science research article
Correction for Sachdev et al., Reversal of C9orf72 mutation-induced transcriptional dysregulation and pathology in cultured human neurons by allele-specific excision
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GPT-4o mini: Non-social science research article
Absence of higher than sixfold coordination in glassy GeO 2 up to 158 GPa revealed by X-ray absorption spectroscopy
JoĂŁo Elias F. S. Rodrigues, Angelika D. Rosa, Emin Mijit, Tetsuo Irifune, Gaston Garbarino, Olivier Mathon, Raffaella Torchio, Max Wilke
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Simple binary oxide glasses can exhibit a compression behavior distinct from that of their crystalline counterparts. In this study, we employed high-pressure X-ray absorption spectroscopy, coupled to the diamond anvil cell, to investigate in detail local structural changes around Ge in glassy GeO 2 up to 158 GPa. We conducted four independent runs, both with and without pressure-transmitting media. Up to 30 GPa, we observed no significant influence of the pressure medium on the pressure dependence of the Ge–O bond length ( <R Ge–O > ). Between 10 and 30 GPa, the evolution of <R Ge–O > shows substantial variability across our experiments and previous works. The measured values lie close to those reported for crystalline polymorphs, including the rutile- and CaCl 2 -type phase of GeO 2 . This finding suggests that the amorphous structure possesses considerable flexibility to transition among different atomic configurations. From 30 GPa to 158 GPa, our results for both <R Ge–O > and the nonbonded cation–cation distance <R Ge
Ge > demonstrate that edge-sharing octahedra remain the main structural motifs in glassy GeO 2 . Up to 100 GPa, compaction proceeds primarily via distortions of octahedral O–Ge–O bond angles, accompanied by octahedral bond shortening and symmetrization. Above 100 GPa, octahedral distortion becomes the prevailing mechanism. Compared to its crystalline analogues (α-PbO 2 and pyrite-like phase), glassy GeO 2 exhibits a slightly less efficient compaction mechanism, likely due to kinetic constraints that inhibit reconstructive lattice rearrangements.
GPT-4o mini: Non-social science research article
Barrierless nucleation in glassy precursors drives zeolite formation
Debdas Dhabal, Suvo Banik, Andressa A. Bertolazzo, Henry Chan, Subramanian K. R. S Sankaranarayanan, Valeria Molinero
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Zeolites are crystalline, microporous silicates widely used in catalysis and separations, yet the molecular mechanisms of their formation remain unresolved. Experiments indicate that hydrothermal synthesis of silica zeolites from clear solution proceeds through amorphous nanoaggregates that gradually develop zeolite order in an apparently continuous amorphous to crystal transformation. Here, we combine molecular simulations with advanced algorithms that identify zeolite order and computer vision to elucidate the pathway from clear solution to zeolite nanocrystal. We show that at conditions of hydrothermal synthesis of silica zeolites, the transformation of precursor aggregate into zeolite is not limited by nucleation barriers but by the slow dynamics of reorganization in the glassy precursor matrix. The negligible nucleation barriers result in spinodal-like crystallization that leads to a gradual formation of a mosaic of small crystallites that explain the seemingly continuous character of zeolite crystallization and the catalytic activity of X-ray amorphous, protozeolites and embryonic zeolites. We find that zeolite-like porosity and short-range order emerge early within glassy precursors, well before crystallinity is detected in transmission electron microscopy (TEM) images or X-ray diffraction. The nanoaggregate’s temperature-size phase diagram reveals a convergence of the zeolite–amorphous equilibrium and maximum crystallization rate at ~3 nm diameter nanoparticle diameters and ~200 °C. This convergence signals the termination of the first-order amorphous-to-zeolite transition. Our results provide a unifying framework for understanding nucleation of silica zeolites from solution and suggest that barrierless nucleation may govern the formation of other nanoparticle systems, including minerals and oxides synthesized far below their bulk melting points.
GPT-4o mini: Non-social science research article
Data-driven enhanced sampling of mechanistic pathways
Revanth Elangovan, Sompriya Chatterjee, Dhiman Ray
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The mechanisms of molecular processes can be characterized by following the minimum free energy pathway (MFEP) on the underlying multidimensional conformational landscapes. Despite recent advancements in enhanced sampling algorithms, obtaining a converged high-dimensional molecular free energy landscape remains a considerable challenge. To circumvent this issue, we employ a deep multitask learning algorithm that integrates deep neural networks with the established enhanced sampling method of well-tempered metadynamics to iteratively learn the MFEP between reactant and product conformations, without the knowledge of the underlying free energy landscape. Our approach improves upon existing pathway exploration algorithms by following a simpler protocol, thereby eliminating the need to identify intermediate structures along a guess path. From the learned pathway, an automatic reconstruction of a mechanistic fingerprint can be performed by following the sequence of events in the molecular process, allowing for a direct characterization of the molecular mechanism. We demonstrate applications of our algorithm to prototypical chemical reactions, protein folding, and ligand–receptor binding problems. Due to its low computational cost and overall simplicity, this framework is expected to find widespread applications in elucidating molecular mechanisms at all-atom resolution.
GPT-4o mini: Non-social science research article
The LFR-SWI/SNF complex: A chromatin wrench safeguarding cellular quiescence in the Arabidopsis root stem cell organizer
Shuge Wang, Jiayu Li, Mengmeng Li, Qiyan Fang, Xiaolei Shi, Long Yan, Qiang Chen, Xiaoyun Li, Muhammad Ans Aslam, Hao Zhang, Xigang Liu, Wenqiang Tang, Sujuan Cui, Hongtao Zhao
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The quiescent center (QC) resides in a reversible G 0 state in which cells are not actively dividing and yet retain their proliferation competence upon stimulation. How this quiescent state is molecularly defined and stably maintained is a fascinating question. Here, we uncover a dual role for LEAF AND FLOWER RELATED (LFR), a component of the SWITCH/SUCROSE NONFERMENTABLE (SWI/SNF) chromatin-remodeling complex, in maintaining quiescence of the QC. We demonstrate that LFR is recruited to the chromatin of core transcription factors (TFs) PLETHORA 1 (PLT1), PLT2, SCARECROW (SCR), and WUSCHEL - RELATED HOMEOBOX (WOX5) via physical interactions with them. Moreover, the autoregulatory binding of these TFs reciprocally requires LFR. Functioning as a chromatin wrench, LFR relaxes the chromatin at PLT1 , PLT2 , and SCR loci to sustain their positive autoregulation, thereby contributing to the prevention of QC cell division. Conversely, LFR compacts WOX5 chromatin to enforce negative autoregulation and simultaneously promotes CYCD3;3 expression to counteract WOX5-mediated repression, thus ensuring the proliferation competence of the QC. Furthermore, WOX5 throws a wrench into LFR binding at the CYCD3;3 promoter, establishing a regulatory circuit that precisely modulates CYCD3;3 expression, a D-type cyclin whose appropriate level is critical for QC quiescence. Consequently, the QC is maintained in a proliferation-competent but arrested state. Our findings establish the LFR-containing SWI/SNF complex as a key regulatory node that coordinates TF autoregulation with cell-cycle control to maintain QC quiescence.
GPT-4o mini: Non-social science research article
Tppp3 determines basal body positioning and identity of respiratory cilia via microtubule assembly and sphingolipid homeostasis
Takafumi Sakai, Masahiro Kawakita, Arashi Seki, Katsuyoshi Takaoka, Misaki Kurata, Junpei Torikai, Sohshiroh Atsumi, Kanji Yawata, Kentaro Noi, Yosuke Fukutani, Keiichi Noguchi, Hirofumi Kiyokawa, Mitsuru Morimoto, Eri Takeuchi, Katsura Minegishi, Yoshitsugu Aoki, Shoko Fujimura, Takayuki Nishizaka, Takanari Inoue, Kentaro Nagaoka, Hiroshi Tsugawa, Hisayoshi Hayashi, Hiroshi Ishiguro, Takuma Kozono, Ikuroh Ohsawa, Yasunori Fujita, Hiroaki Matsunami, Hiroshi Hamada, Kyosuke Shinohara
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Cilia are hair-like organelles that protrude from the cell surface. In mammals, tracheal multiciliated cells (MCCs) play an important role in elimination of hazardous microorganisms by driving a unidirectional mucus flow. Although uniform orientation of ciliary beating is critical for the unidirectional flow, it remains unknown how MCCs establish uniform orientations and maintain identities of hundreds of ciliary membranes. This study focuses on investigating the roles of Tubulin Polymerization Promoting Family Member 3 (Tppp3) in MCC function. We generated a Tppp3-deficient mouse ( Tppp3 ∆ex2-4/∆ex2-4 ; Tppp3 knockout (KO)) and found that the Tppp3 KO mouse exhibited cough and hyposmia phenotype. The loss of Tppp3 disrupted the apical microtubules (MTs) meshwork in the tracheal MCCs, leading to random orientation and alignment of basal bodies (BBs) of the motile cilia. Unexpectedly, aberrant ciliary membrane fusions occurred in the trachea of the Tppp3 KO mice. We examined the underlying molecular mechanism of the ciliary membrane fusion by isolating the tracheal cilium. Liquid Chromatography-Mass Spectrometry (LC–MS) analysis as well as pharmacological analysis revealed that hyperaccumulation of a long chain ceramide at the ciliary membrane caused the membrane fusion. In addition, sensory cilia formation was impaired in the olfactory sensory neuron of the Tppp3 KO mice. Due to the lack of Tppp3, dendritic MT assembly that underlies long-range migration of BBs toward the cell surface was impaired. These findings demonstrate that Tppp3, as well as the defined intracellular MT architecture, regulate proper orientation/subcellular positioning of BBs and the independency of individual motile cilium membranes.
GPT-4o mini: Non-social science research article
RAD51AP1 is a versatile RAD51 modulator
Lucas Kuhlen, Bilge Argunhan, Pengtao Liang, Janet Zhong, Laura Masino, Xiaodong Zhang
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RAD51AP1 is an emergent key factor in homologous recombination (HR), the major pathway for accurate repair of DNA double-strand breaks, and in alternative lengthening of telomeres (ALT). Depletion of RAD51AP1 diminishes HR and overexpression is common in cancer, where it is associated with malignancy. Here, we show that RAD51AP1 has a hitherto unknown role in modulating the RAD51 recombinase, the central player in HR. Through a combination of biochemistry and structural biology, we reveal that RAD51AP1 possesses at least three RAD51-binding sites that facilitate its binding across two adjacent RAD51 molecules. We uncover a previously unidentified RAD51-binding mode that stabilizes the RAD51 N-terminal domain and protomer interface in the filaments. We uncover a previously undescribed role for RAD51AP1 in stabilizing RAD51-ssDNA filaments and promoting strand exchange. Our structural data provide the molecular basis for how RAD51AP1 binding induces conformational changes that promote RAD51 DNA association and oligomerization, therefore promoting filament nucleation, stabilization, and strand exchange. Further, we resolved structures of RAD51-ssDNA filaments in the presence of Mg 2+ -ATP and upon hydrolysis to Mg 2+ -ADP, revealing that RAD51 filaments expand upon ATP hydrolysis and explaining how ADP reduces RAD51–DNA binding. Our findings reveal RAD51AP1 as a versatile RAD51 modulator and RAD51 filament remodeler and shed previously unidentified insights into the modulation of HR, which is critical for the maintenance of genome stability.
GPT-4o mini: Non-social science research article
Some parasites like it hot, some don’t
Jukka Jokela
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GPT-4o mini: Non-social science research article
Dynamic control of phase for tunable structural colors
Aritra Biswas, Mahdi Soudi, Souptik Mukherjee, Pablo Cencillo-Abad, Jay Patel, Debashis Chanda
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Structural coloration offers many advantages over conventionally used pigment-based colors due to their nontoxic, fade-resistant, and environmentally friendly nature. These colors arise from the structural arrangements of colorless materials at the nanoscale, which create optical resonances and vibrant hues. Over the last decade, dynamic color generation has been the subject of extensive research across various scientific disciplines. However, commercial adoption has been limited by the absence of effective tuning mechanisms, structural complexities, and fabrication challenges. In this work, we demonstrate active color tuning based on phase modulation of a multilayer stack composed of a phase-changing material (PCM) and a high-index material on a reflective surface. We elucidate the underlying interfacial and cavity phase modulation mechanisms responsible for the dynamic color changes, highlighting the potential for tailoring the optical properties of this thin-film stack for a wide range of practical applications. Furthermore, we showcase the lithography-free implementation of this concept for large-area, color-tunable textiles, complex surfaces, and temperature-sensitive consumer product labeling, highlighting its efficacy in tunable, scalable, and sustainable coloration. Leveraging dynamic phase modulation, this concept holds immense promise for applications in thermal sensing, advanced textile engineering, camouflage, and reconfigurable displays.
GPT-4o mini: Non-social science research article
Forests weather soil cations and lose them to streams
Robert O. Hall
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GPT-4o mini: Non-social science research article
Cryogenic light microscopy of vitrified samples with angstrom precision
Hisham Mazal, Franz-Ferdinand Wieser, Daniel Bollschweiler, Vahid Sandoghdar
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High-resolution studies in structural biology are often limited by the challenges of crystallization and low contrast in the cellular native environment. The exquisite labeling specificity of fluorescence microscopy gets around these issues and allows superresolution microscopy, but to date, these works have used chemically fixed samples. To establish light microscopy as a workhorse in structural biology, two main requirements must be fulfilled: near-native sample preservation and near-atomic optical resolution. Here, we introduce single-particle cryogenic light microscopy (spCryo-LM) as a technique that satisfies these key criteria. We adapt established protocols from cryogenic electron microscopy (Cryo-EM) for shock-freezing samples and use a high-vacuum cryogenic shuttle system to transfer them in and out of a liquid-helium cryostat that houses a superresolution fluorescence microscope. By exploiting the enhanced photophysics at low temperature, angstrom precision can be achieved in localizing several fluorophores attached to proteins separated by a few hundred nanometers. We present various characterization studies on vitreous ice, single-molecule photoblinking behavior, and the effects of laser intensity and benchmark our method by resolving the heptameric membrane protein alpha-hemolysin in a synthetic lipid membrane. Additionally, we report on the technique’s capability to resolve membrane proteins in their native cellular membrane environment. spCryo-LM enables structural studies of proteins in their native environment without chemical fixation or protein isolation, and can be integrated with other superresolution or spectroscopic techniques. We believe our approach establishes light microscopy as a powerful tool in structural biology and sets the stage for correlative microscopy with Cryo-EM and related techniques.
GPT-4o mini: Non-social science research article
A theory of ecological invasions and its implications for eco-evolutionary dynamics
Zhijie Feng, Emmy Blumenthal, Pankaj Mehta, Akshit Goyal
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Predicting the outcomes of species invasions is a central goal of ecology, a task made especially challenging due to ecological feedbacks. To address this, we develop a general theory of ecological invasions applicable to a wide variety of ecological models: including Lotka–Volterra models, consumer resource models, and models with cross feeding. Importantly, our framework remains valid even when invading evolved (nonrandom) communities and accounts for invasion-driven species extinctions. We derive analytical expressions relating invasion fitness to invader abundance, shifts in the community, and extinction conditions. These results can be understood through a quantity we term “dressed invasion fitness,” which augments the traditional notion of invasion fitness by incorporating ecological feedbacks. We apply our theory to analyze short-term evolutionary dynamics through a series of invasions by mutants whose traits are correlated with an existing parent. We demonstrate that, generically, mutants and parents can coexist, often by driving the extinction of low-abundance species. We validate theoretical predictions against experimental datasets spanning ecosystems from plants to microbial protists. Our work highlights the central role of ecological feedbacks in shaping community responses to invasions and mutations, suggesting that parent-mutant coexistence is widespread in eco-evolutionary dynamics.
GPT-4o mini: Non-social science research article
Asparagine endopeptidase prompts breast cancer–related pericardial calcification by regulating IGF2 and integrin αvÎČ5
Xuefeng Wang, Jian Sun, Bin Lan, Chunyu Wang, Jiayi Ma, Qiaoting Hu, Jun Liu, Haili Cheng, Hong Wen, Jieyu Lin, Xinyi Ren, Huabin Yu, Menghui Jiang, Fangfang Chen, Jiayin Ye, Jingjie Zhai, Haokun Lan, Kai Ouyang, Zihao Jing, Libo Lv, Ying Chen, Weibin Zhuo, Jing Lin, Yu Chen, Jinsong Lu, Yufang Shi, Ying Wang
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Cardiac calcification, often seen in age-related diseases, impairs heart function, yet its association with malignant tumors remains largely overlooked. Our study revealed that pericardial calcification (PC) occurs in up to 80% of breast cancer patients with pulmonary metastasis. We demonstrate a reciprocal relationship where breast cancer drives PC, which in turn accelerates cancer progression in humans and mice. Lung metastases increase monocyte-derived macrophage and mesenchymal stem cell (MSC)-derived osteoblast infiltration in the pericardial tissue, triggering inflammation and calcification. Mechanistically, metastatic cancer cells in the lungs highly express and secrete asparagine endopeptidase (AEP), which cleaves IGF2BP3 to free IGF2. AEP and IGF2 contribute to PC by promoting osteoblast differentiation in heart tissue through integrin αvÎČ5 and IGF1R activation, respectively. Pharmacological blockade of integrin αvÎČ5 and IGF1R, especially when combined, effectively inhibits ectopic osteogenesis and disrupts the feedback loop between PC and cancer progression. These findings elucidate the interplay between metastatic breast cancer and PC and suggest therapeutic strategies to hinder breast cancer progression.
GPT-4o mini: Non-social science research article
Distinguishing subtypes of endothelial cells in the mouse aorta
Liqun He, Riikka PietilÀ, Yuyang Miao, Elisa Vazquez-Liebanas, Marie Jeansson, Loren G. Fong, Stephen G. Young, Maarja Andaloussi MÀe, Lars Muhl, Christer Betsholtz
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This study reanalyzed endothelial cell (EC) gene expression in the mouse aorta utilizing eight single-cell RNA-sequencing datasets. Contrary to the assumption that all ECs originated from the luminal surface, we identified two distinct sites of origin: aortic lumen ( Cytl1 -positive ECs) and peri-aortic microvascular ( Gpihbp1 -positive ECs). The proportions of these EC subtypes varied extensively across the eight datasets, likely due to differing experimental procedures. We deduced complete transcriptomes for each EC subtype, revealing differential gene expression and predicted functional properties. We provide marker lists and an accessible online database for gene-by-gene analysis to aid in correct cell identification and in gauging the impact of patho/physiological parameters on aortic EC gene expression.
GPT-4o mini: Non-social science research article
Competition between Der1 and ERAD-M substrates controls Hrd1 complex function
Jennifer E. Russ, Brian G. Peterson, Sophia Taylor, Ryan D. Baldridge
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Endoplasmic reticulum–associated degradation (ERAD) is a quality control process which removes misfolded proteins from the ER. The central component of the most conserved ERAD system is an integral membrane ubiquitin ligase called Hrd1. The Hrd1 ligase functions within a complex to mediate the recognition and ubiquitination of both soluble, lumenal substrates and integral membrane substrates, all of which are ultimately targeted for degradation by the cytosolic proteasome. Here, we used deep mutational scanning to identify Hrd1 residues exclusively involved in the degradation of integral membrane substrates. We report single residue Hrd1 variants that are broadly deficient in the degradation of all integral membrane substrates tested. Using in vivo assays to characterize Hrd1 variant deficiency, we explain how integral membrane substrates compete with other complex components to control Hrd1 function. This work reveals competition for the retrotranslocon cavity between both lumenal and membrane substrate degradation paths and highlights Hrd1 complex assembly as the primary determinant for tuning ERAD function.
GPT-4o mini: Non-social science research article
Origin and adaptive evolutionary trajectory of the 3â€Č UTR–derived sRNA UhpU in Enterobacteriaceae
Xiaomin Chen, Cheng Bei, Jialei Liang, Yaomei Yang, Yuanyuan Ruan, Qian Gao, Chuan Wang
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Bacterial small RNAs (sRNAs) derived from mRNA 3â€Č untranslated regions (3â€Č UTRs) have emerged as important regulators of gene expression, yet their evolutionary origins and functional diversification remain poorly understood compared to the protein-coding sequences of the same transcripts. In this study, we present a comparative analysis of the biogenesis and regulatory functions of UhpU, a 3â€Č UTR–derived sRNA from the hexose phosphate transporter gene uhpT , in Escherichia and Salmonella . We show that UhpU likely originated as a processed sRNA generated by RNase E cleavage in Enterobacteriaceae, enabling repression of genes in the hexose phosphotransferase system, thereby contributing to hexose phosphate homeostasis in coordination with its parental gene. In Escherichia , UhpU subsequently evolved the ability to repress mprA , a transcriptional repressor, via a UhpU-binding site introduced by a horizontally acquired DNA fragment that extended the mprA 5â€Č UTR. After divergence from the most recent common ancestor with Escherichia albertii , the lineage comprising Escherichia coli , Escherichia fergusonii , and Shigella acquired a FliA-dependent promoter within the uhpT coding region, allowing independent transcription of UhpU and establishing it as a dual-biogenesis sRNA. Together, our results outline a stepwise trajectory in which UhpU evolved from a processing-derived metabolic regulator to an sRNA with expanded regulatory connections and a lineage-specific FliA-dependent transcriptional program in Escherichia .
GPT-4o mini: Non-social science research article
Carbonate burial regimes, the Meso-Cenozoic climate, and nannoplankton expansion
Tristan Salles, Laurent Husson, Thran Trung Nguyen, Ana Vila-Concejo, Jonathon Leonard, Ana Paula Da Silva, Jody M. Webster, Fabienne Giraud
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The long-term climate of Earth alternates between warmer and cooler periods, for which atmospheric CO 2 content is often viewed as a primary control. Although silicate weathering feedback governs this long-term equilibrium, the partitioning of carbonate burial between neritic and pelagic environments can influence how rapidly the carbon cycle adjusts to perturbations. The impact of neritic carbonates accumulation on oceanic calcium and alkalinity fluxes, nannoplankton productivity, and carbon reservoirs is overlooked. To investigate this role, we combine plate-tectonic reconstructions with climatic and physiographic simulations and apply a macroecological model to estimate Meso-Cenozoic neritic warm-water carbonate habitats and productivity. We find that only during the Early Cretaceous and Cenozoic did geochemical influxes exceed the carbonate accumulation potential of neritic platforms, while for most of the interval they fell short. These alternating states define two regimes: i) habitability-limited periods, where environmental conditions restrict the development of neritic carbonate factories, and ii) alkalinity-limited periods, where ocean chemistry restricts carbonate precipitation. By alternating between these regimes, neritic platforms modulate the buffering capacity and the timescales (10 3 to 10 5 years) of carbon cycle recovery and regulate the development and productivity of nannoplankton, and therefore the biological pump. This framework highlights the role of shallow-water carbonate systems as important modulators of the Earth’s climate system and pelagic ecosystems.
GPT-4o mini: Non-social science research article
An IMPDH2 variant associated with neurodevelopmental disorder disrupts purine biosynthesis and somite organization
Audrey G. O’Neill, Morgan E. McCartney, Gavin M. Wheeler, Jeet H. Patel, Gardenia Sanchez-Ramirez, Justin M. Kollman, Andrea E. Wills
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IMP dehydrogenase (IMPDH) controls a key regulatory node in purine biosynthesis. Gain-of-function mutations in human IMPDH2 are associated with neurodevelopmental disorders and neuromuscular symptoms including dystonia, but the developmental mechanisms underlying these defects are unknown. We previously showed that these mutants are insensitive to GTP inhibition and hypothesized that their hyperactivity would affect nucleotide metabolism in vivo. Here, we characterize the metabolic and developmental consequences of the neurodevelopmental disorder-associated IMPDH2 mutant, S160del, in Xenopus tropicalis . We show that expressing S160del but not WT human IMPDH2 disrupts purine pools and somite organization in the developing tadpole. We also show that S160del disrupts in vivo IMPDH filament assembly, a well-described IMPDH regulatory mechanism. Cryo-EM structures show that S160del disrupts filament assembly by destabilizing the dimerization of regulatory Bateman domains. Dimerization of Bateman domains and subsequent filament formation can be restored with a high affinity ligand, but this does not restore sensitivity to GTP inhibition, suggesting S160del also disrupts allostery of IMPDH2 filaments. This work demonstrates that the structural effects of patient IMPDH2 variants can cause disruptions both to nucleotide levels and to the normal development of sensorimotor structures, helping us better understand the physiological basis of disease in these patients.
GPT-4o mini: Non-social science research article
Control of encounter kinetics by chemically active droplets
Jacques D. Fries, Roxanne Berthin, Marie Jardat, Pierre Illien, Vincent Dahirel
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Biomolecular condensates play a crucial role in the spatial organization of living matter. These membrane-less organelles, resulting from liquid–liquid phase separation, operate far from thermodynamic equilibrium, with their size and stability influenced by nonequilibrium chemical reactions. While condensates are frequently considered optimized nanoreactors that enhance molecular encounters, their actual impact on reaction kinetics remains unclear due to competing effects such as diffusion hindrance, and random trapping in nonspecific condensates. In this study, we develop a microscopic, stochastic model for chemically active droplets, incorporating reaction-driven modulation of protein interactions. Using Brownian dynamics simulations, we investigate how protein interactions and active coupling to a free energy reservoir influence phase separation, molecular transport, and reaction kinetics. We demonstrate that the intensity of the chemical drive governs surface dynamics, generating fluxes that modulate bimolecular reaction rates. Comparing active emulsions to homogeneous systems, we reveal that condensates can either accelerate or decelerate molecular encounters. Our findings provide key insights into the role of biomolecular condensates as potential regulators of intracellular reaction kinetics.
GPT-4o mini: Non-social science research article
Widespread promiscuous alkaline phosphatases underscore ancient microbial phosphite utilization
Morito Sakuma, Naoki Konno, Sevan Gholipour, John Z. Chen, Nobuhiko Tokuriki
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Phosphate is often a limiting resource, directly affecting the availability of key biomolecules such as nucleotides. To cope with phosphate scarcity, bacteria have evolved enzymes that utilize alternative phosphorus compounds, including phosphite (Pt). Although a few enzymes oxidize Pt to produce phosphate, the enzymes responsible for Pt oxidation in many environmental bacteria remain unidentified, and the role of microbial Pt oxidation in the global phosphorus cycle is not yet fully understood. In this study, we performed bioinformatic analyses of three Pt-oxidizing enzymes: the native Pt oxidase, phosphite dehydrogenase (PtxD), and two promiscuous Pt oxidases, alkaline phosphatase (PhoA) and carbon–phosphorus lyase. Among these, PhoA was found to be widely distributed across bacteria since the early stages of their evolution. In contrast, PtxD emerged later in a limited number of bacterial lineages that had lost PhoA. Our biochemical characterizations revealed that most extant and reconstructed ancestral PhoAs tested exhibited Pt oxidation activity. Moreover, disruption of active-site residues diminished Pt oxidase activity in PhoA, while only partially affecting its native function. This promiscuous function of PhoA reveals an overlooked mechanism in bacterial phosphate metabolism and underscores the role of Pt in the cycling of bioavailable phosphorus in ecosystems.
GPT-4o mini: Non-social science research article
Short- and long-term costs of reproduction revealed by telomere dynamics in wild greater horseshoe bats
Megan L. Power, Roger D. Ransome, Luke Romaine, Gareth Jones, Emma C. Teeling
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Life-history trade-offs between reproduction and survival are well documented, yet the biological mechanisms underlying costs remain unclear. Telomere length (TL) is a potential biomarker for such costs, although its association with reproductive efforts is mixed. Bats, particularly the long-lived greater horseshoe bat ( Rhinolophus ferrumequinum ), provide a rare opportunity to explore these dynamics due to their longevity and low reproductive rates. We examined telomere dynamics in 202 female R. ferrumequinum (819 samples) from a wild population with over 65 y of monitoring, to assess whether reproductive effort leads to telomere shortening (cost of reproduction) or whether longer telomeres were associated with greater reproductive success (reflecting individual quality). Using Bayesian models, we show that females breeding from 2 y of age had significantly shorter relative TL (rTL) compared to females delaying reproduction until later ages. Selective disappearance was evident, with individuals possessing shorter rTL less likely to persist in the population. Cumulative reproductive success showed a positive nonsignificant association with rTL, consistent with the idea that long-term costs may be mitigated by individual quality or selective disappearance of low-quality individuals. However, short-term reproductive costs were evident, particularly in older females that bred in the previous year. Female R. ferrumequinum rTL declined during annual summer reproductive periods, particularly through the energetically demanding lactation stage. Within individuals, shorter rTL was associated with a reduced probability of surviving to the following year. These findings highlight the interplay between reproductive investment, telomere dynamics, and survival, supporting aspects of both the cost of reproduction and individual quality hypotheses in long-lived, low-fecundity species such as bats.
GPT-4o mini: Non-social science research article
Instantaneous response and quantum geometry of insulators
Nishchhal Verma, Raquel Queiroz
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We present the time-dependent Quantum Geometric Tensor (tQGT) as a comprehensive tool for capturing the geometric character of insulators observable within linear response. We show that tQGT describes the zero-point motion of bound electrons and acts as a generating function for generalized sum rules of electronic conductivity. It therefore enables a systematic framework for computing the instantaneous response of insulators, including optical mass, orbital angular momentum, and dielectric constant. This construction guarantees a consistent approximation across these quantities upon restricting the number of occupied and unoccupied states in a low-energy description of an infinite quantum system. We outline how quantum geometry can be generated in periodic systems by lattice interference and examine spectral weight transfer from small frequencies to high frequencies by creating geometrically frustrated flat bands.
GPT-4o mini: Non-social science research article
Regulation of eukaryotic-like cell cycle progression in archaea is coming into focus
Miguel V. Gomez-Raya-Vilanova, Mart Krupovic
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GPT-4o mini: Non-social science research article
Systematic analysis of noncanonical ribosomal protein paralogs does not provide evidence for specialized functions in Drosophila
Katarina Z. A. Grobicki, Daniel Gebert, Carol Sun, Felipe Karam Teixeira
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Ribosomes catalyze all protein synthesis, and mutations altering their levels and function underlie many developmental diseases and cancer. Historically considered to be invariant machines, ribosomes differ in composition between tissues and developmental stages, incorporating a diversity of ribosomal proteins (RPs) encoded by duplicated paralogous genes. Here, we use Drosophila to systematically investigate the origins and functions of noncanonical RP paralogs. We show that new paralogs mainly originated through retroposition and that only a few new copies retain coding capacity over time. Although transcriptionally active noncanonical RP paralogs often present tissue-specific expression, we show that the majority of those are not required for either viability or fertility in Drosophila melanogaster . The only exception, RpS5b, which is required for oogenesis, is functionally interchangeable with its canonical paralog, indicating that the RpS5b −/− phenotype results from insufficient ribosomes rather than the absence of an RpS5b-specific, functionally specialized ribosome. Altogether, our results provide evidence that instead of new functions, RP gene duplications provide a means to regulate ribosome levels during development.
GPT-4o mini: Non-social science research article
Lineage tracing of both quiescent G0 and active Hoxb5+ LT-HSCs that actively contribute to homeostatic mouse hematopoiesis
Jinyi Xiang, Laura Almeida, Joe Pasillas, Christopher T. Sun, Yijun Wang, Elle Koren, Eric C. Hanson, Annika Brakebill, Charlene Wang, Andrew T. Burden, Irving L. Weissman
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Studying the lineage commitment and differentiation potential of long-term hematopoietic stem cells (LT-HSCs) is important to understand the dynamics of hematopoiesis. A central question concerns which hematopoietic stem and progenitor cell populations are responsible for sustaining steady-state hematopoiesis in vivo without conditioning. Noninvasive HSC fate-mapping strategies to address this question require specific labeling of LT-HSCs only. In this study, we selectively labeled a subset of Hoxb5+ LT-HSCs—excluding short-term HSCs (ST-HSCs) and multipotent progenitors (MPPs)—to track the progeny of these cells. Hoxb5+ LT-HSCs comprise ~1 in 100,000 bone marrow cells. MPPs were not labeled until several months post-induction, indicating their derivation from LT-HSCs. At no time were MPPs labeled and LT-HSCs not, consistent with the origin and maintenance of MPPs from LT-HSCs. Hoxb5+ LT-HSCs are the principal contributors to steady-state in situ hematopoiesis, but only a fraction of LT-HSCs were labeled by the Cre/LoxP conversion to a lineage-tracing color. We tested whether quiescent HSCs could have incised the DNA at loxp sites, but did not finish the rearrangement. Analysis of phosphorylated H2AX (γ-H2AX) revealed that quiescent LT-HSCs retain Cre/LoxP-induced DNA incisions, which are repaired upon cell cycle entry, leading to the appearance of newly labeled LT-HSCs at later time points, mainly of the myeloid-biased HSC. Moreover, most LT-HSCs exhibit marked expansion in response to hematopoietic stress. With the age-related shift of blood formation from balanced to myeloid biased, the myeloid-biased HSCs expand preferentially after 6 mo of tracking.
Restoring institutional confidence in backsliding democracies: Evidence from Mexico
Brett Bessen, Susan Stokes, Andres Uribe
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Declining confidence in public institutions afflicts many democracies, a trend apparently exacerbated by backsliding leaders. These are leaders who gradually undermine the institutions that sustain democratic competition and accountability. Does the rhetoric of backsliders undermine the public’s confidence in the institutions under attack and can rebuttals of presidential diatribes restore this confidence? We explore the impact of backsliding leaders’ anti-institutional rhetoric in the context of Mexico. With text-as-data analyses, we demonstrate the harshness of President AndrĂ©s Manuel LĂłpez Obrador’s (2018–2024) anti-institutional diatribes against the agency that oversees national elections. With survey experiments, we demonstrate that these diatribes can indeed undermine public confidence. Yet our research also uncovers the potential for rebuttals to restore confidence. Counternarratives offered by organizations viewed as above the fray of Mexican politics restored public confidence—surprisingly, even among the president’s supporters. Our findings suggest strategies for breaking out of the cage of intense partisanship and countering democracy-degrading rhetoric. Though presidential haranguing of democratic institutions can have a powerful effect, there remains room for public confidence to be restored by more positive accounts.
Subsistence fishing patterns near food deserts
Savannah H. Swinea, Hailey Smith, Jonathan H. Grabowski, Sean P. Powers, Sara Wylie, Steven B. Scyphers
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Fisheries are critical for sustaining waterfront communities. However, subsistence fishing is not well understood in the United States, despite its potential contributions to health and culture. We piloted a multivariable construct to classify subsistence vs. nonsubsistence fishers, identified the strongest predictor of participating in this practice, and tested for differences in place-based fishing motivations, behaviors, and community sharing. Among shore-based fishers in coastal Alabama, lower household income was the most powerful predictor of subsistence fishing. Subsistence fishers held more fishing motivations, targeted more specific fish groups, were more efficient in catching and keeping fish, and more frequently shared fish across social groups. Informed by these findings, we discussed management strategies to addressopportunities and barriers for shore-based subsistence fishing in coastal Alabama. More broadly, the framework piloted here offers a pathway to integrate subsistence fisheries into management using place-based evidence.
A speleothem record from the Fertile Crescent covering the last deglaciation better contextualizes neolithization
Eleonora Regattieri, Luca Forti, Russell N. Drysdale, Hsun-Ming Hu, Chuan-Chou Shen, Irene Cornacchia, Samuele Agostini, Ilaria Isola, Cecilia Conati Barbaro, Daniele Morandi Bonacossi, Rafal KoliƄski, Michael L. Griffiths, Andrea Zerboni
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This study presents a high-resolution, multiproxy (carbon and oxygen isotopes, trace elements, and strontium isotopes) speleothem record from the Kurdistan Region of Iraq extending from the end of the Last Glacial Maximum (LGM) to the Early Holocene (18.0 to 7.5 ka), encompassing the Epipaleolithic–Neolithic transition in the core area of the Fertile Crescent (FC). The record shows that changes in local rainfall amount were coincident with changes in Greenland temperatures, with increased precipitation and enhanced multidecadal hydroclimatic variability during the Bþlling–Allerþd chronozone, followed by a drier and dustier Younger Dryas. Comparison with regional paleoclimate data suggests similar precipitation patterns across the FC, but with greater hydroclimate variability during the BA and drier conditions during the YD in the eastern sector. Crucially, the record provides a detailed and well-dated paleoenvironmental template by which to contextualize specific cultural events at the subregional scale, as revealed by recent archaeological research on key sites sharing similar environmental settings, allowing to investigate the role of climatic and environmental changes in shaping different neolithization patterns across the FC.
Mysterious illnesses have supernatural and ritualistic cures: Evidence from 3,655 century-old Irish folk cures
Mícheål de Barra, Ángel V. Jiménez, Nachita Rosun, Aiyana K. Willard
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Why and when do people draw upon religious and supernatural solutions to problems? Cognitive scientists and anthropologists have proposed a range of answers, stressing religion and ritual’s capacity to alleviate anxiety, create a sense of order, or explain otherwise inexplicable events. Here, we leverage a unique dataset of 3,655 folk cures for 35 diseases, collected in 1937/8 from a mostly rural Irish sample born roughly between 1850 and 1925. Since the diseases vary in theory-relevant ways and the cures vary in the degree to which they include religious and supernatural elements, this dataset facilitates a unique test of these predictions in a premodern western population. In preregistered tests, we find that diseases judged by two doctors to have causes and mechanisms that would be unclear to the patients were more likely to have supernatural/religious treatments. Contra common predictions, severe and disabling diseases did not have more supernatural/religious cures and anxiety-provoking diseases did not have more ritualistic cures.

Science

GPT-4o mini: Non-social science research article
A stoichiometrically conserved homologous series with infinite structural diversity
Hengdi Zhao, Xiuquan Zhou, Ziliang Wang, Patricia E. Meza, Yihao Wang, Denis T. Keane, Steven J. Weigand, Saul H. Lapidus, Duck-Young Chung, Christopher Wolverton, Vinayak P. Dravid, Stephan Rosenkranz, Mercouri G. Kanatzidis
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We describe a compositionally guided structural evolution within a stoichiometrically conserved framework, BaSbQ 3 (Q = Te 1− x S x ), where each value of x gives rise to a distinct phase. The fundamental building blocks, A 1 (BaSbSTe 2 ) and B n (Ba n Sb n S n −1 Te 2 n +1 ), were composed of modular double rocksalt slabs stacked with functional polytelluride zigzag chains, with each phase differing only in the size and assembly of these blocks. Ten compounds were synthesized that maintained a coherent chemical identity that arose from this isovalent, isoelectronic substitution of Te and S. We envision that the phase formation at a molecular level unfolds in stages of extension, termination, and assembly and propose a design concept of “anionic disparity,” where phase homologies and polytelluride hierarchical networks can be controlled by leveraging differences in anion electron affinity and sizes.
GPT-4o mini: Non-social science research article
Cohesin guides homology search during DNA repair using loops and sister chromatid linkages
Federico Teloni, Zsuzsanna Takacs, Michael Mitter, Christoph C. H. Langer, InĂšs Prlesi, Thomas L. Steinacker, Vincent P. Reuter, Dmitry Mylarshchikov, Daniel W. Gerlich
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Accurate repair of DNA double-strand breaks (DSBs) is essential for genome stability, and defective repair underlies diseases such as cancer. Homologous recombination uses an intact homologous sequence to faithfully restore damaged DNA, yet how broken DNA ends find homologous sites in a genome containing billions of bases remains unclear. Here, we introduce sister-pore-C, a high-resolution method to map intra- and intermolecular interactions in replicated chromosomes. We show how DSBs remodel chromosome architecture using two functionally distinct pools of cohesin. Loop-extruding cohesin accumulates across megabase-scale domains surrounding DSBs to control local homology sampling, whereas cohesive cohesin concentrates at break sites to tether DNA ends to the sister chromatid. This mechanism restricts the homology-sampling space, highlighting how chromosome conformation helps to preserve genomic integrity.
GPT-4o mini: Non-social science research article
Improved solvent systems for commercially viable perovskite photovoltaic modules
Yinke Wang, Ye Liu, Xin Luo, Ke Xiao, Victor Marrugat-Arnal, Dongdong Xu, Jing Lou, Weiwei Zuo, Navid Tavakoli, Tiantian Li, Yuanbo Yang, Chenyang Duan, Wennan Ou, Yuxuan Liu, Jiajia Hong, Hongfei Sun, Gongtao Duan, Manya Li, Han Gao, Zijing Chu, Long Jiang, Michael Saliba, Makhsud I. Saidaminov, Chao Chang, Hairen Tan
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Commercializing perovskite photovoltaics requires overcoming three critical barriers: the use of toxic solvents in manufacturing, variations in perovskite film quality across large areas, and limited operational reliability. Here, we address these challenges by developing a green solvent–based (γ-valerolactone/2-methyl tetrahydrofuran/dimethylsulfoxide) ink and a solvent-confinement edge-protection strategy, demonstrating large-scale manufacturing of defect-minimized perovskite films under ambient-air conditions. These approaches enabled the production of 7200-square-centimeter perovskite photovoltaic modules that achieved a total-area steady-state efficiency of 17.2% (certified by the National Renewable Energy Laboratory) and that passed all IEC 61215 reliability standards (certified by TÜV Rheinland). This work demonstrates an environmentally responsible path toward commercial manufacturing of perovskite photovoltaics.
GPT-4o mini: Non-social science research article
Multispecies grasslands produce more yield from lower nitrogen inputs across a climatic gradient
James O’Malley, John A. Finn, Carsten S. Malisch, Matthias Suter, Sebastian T. Meyer, Giovanni Peratoner, Marie-NoĂ«lle Thivierge, Diego Abalos, Paul R. Adler, T. Martijn Bezemer, Alistair D. Black, Åshild Ergon, Barbara GoliƄska, Guylain Grange, Josef Hakl, Nyncke J. Hoekstra, Olivier Huguenin-Elie, Jingying Jing, Jacob M. Jungers, Julie Lajeunesse, Ralf Loges, GaĂ«tan Louarn, Andreas LĂŒscher, Thomas Moloney, Christopher K. Reynolds, Ievina Sturite, Ali Sultan Khan, Rishabh Vishwakarma, Yingjun Zhang, Feng Zhu, Caroline Brophy
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High-yielding forage grasslands frequently comprise low species diversity and receive high inputs of nitrogen fertilizer. To investigate multispecies mixtures as an alternative strategy, the 26-site international ‘LegacyNet’ experiment systematically varied the diversity of sown grasslands using up to six high-yielding forage species (grasses, legumes, and herbs), managed under moderate nitrogen inputs. Multispecies mixtures outyielded two widely used grassland practices: a grass monoculture with higher nitrogen fertilizer, and a two-species grass-legume community. High yields in multispecies mixtures were driven by strong positive grass-legume and legume-herb interactions. In warmer sites, the yield advantage of legume-containing multispecies mixtures over monocultures and the high-nitrogen grass increased. Improved design of grassland mixtures can inform more environmentally sustainable forage production and may enhance adaptation of productive grasslands to a warming climate.
GPT-4o mini: Non-social science research article
Semiseparated biphasic bicontinuous dielectric elastomer for high-performance artificial muscle
Xiaotian Shi, Jiang Zou, Peinan Yan, Rongtai Wan, Baoyang Lu, Guoying Gu, Xiangyang Zhu
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Electrically driven dielectric elastomer artificial muscles represent a transformative advancement in the field of soft robotics. However, their output performance has encountered a bottleneck owing to the insufficient electromechanical sensitivity of dielectric elastomers. We present a hetero-cross-linking–induced phase separation strategy to design semiseparated biphasic bicontinuous dielectric elastomers with a high electromechanical sensitivity of 360 per megapascal. Our strategy harnesses varying silicone elastomer cross-linking mechanisms to form an interconnected dielectric phase within a soft mechanical phase in the resultant elastomers. These elastomer-based artificial muscles simultaneously exhibit high energy density and power density, as well as ultralong life span under low-driving fields. Applications involve a robotic arm with large stroke and untethered soft crawling robots with multimodal locomotion, showcasing their versatility.
GPT-4o mini: Non-social science research article
Challenges and opportunities for quantum information hardware
David D. Awschalom, Hannes Bernien, Ronald Hanson, William D. Oliver, Jelena Vučković
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Quantum technologies have made impressive progress over the past decade. In some areas, such as quantum sensing and key distribution, these technologies are moving from the laboratory to enable real-world applications. However, for areas such as quantum computing, entanglement-enhanced sensing, and a global quantum internet, we are in an equivalent of the early transistor age, and hardware breakthroughs are required in multiple arenas to reach the performance necessary for the envisioned applications. In this Review, we assess the current state of the art of quantum information hardware and identify key challenges and opportunities ahead. We draw inspiration from the history of scaling and development of classical electronics and photonics to anticipate progress in the field.
GPT-4o mini: Non-social science research article
A diminutive tyrannosaur lived alongside Tyrannosaurus rex
Christopher T. Griffin, Jeb Bugos, Ashley W. Poust, Zachary S. Morris, Riley S. Sombathy, Michael D. D’Emic, Patrick M. O’Connor, Holger Petermann, Matteo Fabbri, Caitlin Colleary
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Whether Nanotyrannus lancensis represents a distinct taxon or an immature Tyrannosaurus rex is a decades-long controversy. The N. lancesis holotype is an isolated skull and ceratobranchials, but limb osteohistology of Nanotyrannus -like individuals implies that these individuals were immature Tyrannosaurus , suggesting that the Nanotyrannus holotype is also immature. We demonstrate that ceratobranchial (‘hyoid’) histology is useful for ontogenetic assessment in extant and extinct archosaurs. The ceratobranchial histology of the N. lancensis holotype indicates that it was nearing or had reached skeletal maturity, suggesting that it is taxonomically distinct from the coeval Tyrannosaurus rex and that Hell Creek (and equivalent) ecosystems supported a diverse assemblage of predatory dinosaurs approaching the K-Pg extinction.
GPT-4o mini: Non-social science research article
Cell wall patterning regulates plant stem cell dynamics
Xianmiao Zhu, Xing Chen, Yangxuan Liu, Yimin Zhu, Geshuang Gao, Miao Lan, Yihao Fu, Yimin Gu, Han Han, Wenjuan Cai, Raymond Wightman, Mingjun Gao, Yiliang Ding, Weibing Yang
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The plant cell wall regulates development through spatiotemporal modulation of its chemical and mechanical properties. Pectin methylesterification is recognized as a rheological switch controlling wall stiffness. Here, we reveal a bimodal methylesterification pattern in the shoot meristem: Mature walls exhibit high methylesterification, whereas demethylesterified pectins are deposited at new cross walls. This spatial heterogeneity is established through nuclear sequestration of PECTIN METHYLESTERASE5 ( PME5 ) mRNA. MYB3R4-driven transcription, combined with RZ-1B/1C-mediated retention, creates a mitotically associated PME5 mRNA reservoir in the nucleus. Nuclear envelope disassembly synchronizes PME5 messenger RNA (mRNA) release with cell plate formation, enabling precise demethylesterification at division planes. Perturbation of this spatial control compromises stem cell maintenance or breaks division patterning. Our study uncovers an mRNA compartmentalization mechanism that couples stem cell dynamics with pectin modification.
GPT-4o mini: Non-social science research article
The specificity and structure of DNA cross-linking by the gut bacterial genotoxin colibactin
Erik S. Carlson, Raphael Haslecker, Chiara Lecchi, Miguel A. Aguilar Ramos, Vyshnavi Vennelakanti, Linda Honaker, Alessia Stornetta, Estela S. Millán, Bruce A. Johnson, Heather J. Kulik, Silvia Balbo, Peter W. Villalta, Victoria M. D’Souza, Emily P. Balskus
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Accumulating evidence has connected the chemically unstable, DNA-damaging gut bacterial natural product colibactin to colorectal cancer, including the identification of mutational signatures that are thought to arise from colibactin-DNA interstrand cross-links (ICLs). However, we currently lack direct information regarding the structure of this lesion. In this work, we combined mass spectrometry and nuclear magnetic resonance spectroscopy to elucidate the specificity and structure of the colibactin-DNA ICL. We found that colibactin alkylates within the minor groove of adenine- and thymine-rich DNA, explaining the origins of mutational signatures. Unexpectedly, we discovered that the chemically unstable central motif of colibactin mediates the sequence specificity of cross-linking. By directly elucidating colibactin’s interactions with DNA, this work enhances our understanding of the structure and genotoxic mechanisms of this cancer-linked gut bacterial natural product.
GPT-4o mini: Non-social science research article
High-fidelity human chromosome transfer and elimination
Gianluca Petris, Simona Grazioli, Linda van Bijsterveldt, Pierre Murat, Kim C. Liu, Jakob Birnbaum, Julian E. Sale, Jason W. Chin
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The synthesis of human genomes and other gigabase-scale genomes will require new strategies. Here, we realized key steps in our pipeline for building synthetic human chromosomes. We established: (i) the facile transfer of human chromosomes from human cells to mouse embryonic stem cells (assembly cells), where they are haploid, are nonessential, and may be operated on; (ii) the transfer of these human chromosomes from monochromosomal hybrids back into human cells to generate defined, synthetic aneuploidies; and (iii) the elimination of the corresponding endogenous human chromosomes to regenerate diploid cells containing a transferred chromosome. All steps were performed in nontransformed cells without chromothripsis and generated minimal structural variants, insertions, deletions, or single-nucleotide variants.
GPT-4o mini: Non-social science research article
Multiscale structure of chromatin condensates explains phase separation and material properties
Huabin Zhou, Jan Huertas, M. Julia Maristany, Kieran Russell, June Ho Hwang, Run-Wen Yao, Nirnay Samanta, Joshua Hutchings, Ramya Billur, Momoko Shiozaki, Xiaowei Zhao, Lynda K. Doolittle, Bryan A. Gibson, Andrea Soranno, Margot Riggi, Jorge R. Espinosa, Zhiheng Yu, Elizabeth Villa, Rosana Collepardo-Guevara, Michael K. Rosen
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The structure and interaction networks of molecules within biomolecular condensates are poorly understood. Using cryo–electron tomography and molecular dynamics simulations, we elucidated the structure of phase-separated chromatin condensates across scales, from individual amino acids to network architecture. We found that internucleosomal DNA linker length controls nucleosome arrangement and histone tail interactions, shaping the structure of individual chromatin molecules within and outside condensates. This structural modulation determines the balance between intra- and intermolecular interactions, which governs the molecular network, thermodynamic stability, and material properties of chromatin condensates. Mammalian nuclei contain dense clusters of nucleosomes whose nonrandom organization is mirrored by the reconstituted condensates. Our work explains how the structure of individual chromatin molecules determines physical properties of chromatin condensates and cellular chromatin organization.
GPT-4o mini: Non-social science research article
Macrophage MR1 antigen presentation promotes MAIT cell immunity and lung microbiota modulation
Jieru Deng, Yuting Yan, Xiaoyue Zhang, Calum J. Walsh, Emmanuel Montassier, Debajyoti Sinha, Huimeng Wang, Atieh Mousavizadeh, Mitra Ashayeripanah, Jeffrey Y. W. Mak, Hui-Fern Koay, Tobias Poch, Yannick O. Alexandre, Scott N. Mueller, Ajithkumar Vasanthakumar, Tim P. Stinear, Vanta J. Jameson, Alexis Perez-Gonzalez, Jenny Kingham, Tri Giang Phan, Nikita Potemkin, Lachlan Dryburgh, Jan Schroeder, David P. Fairlie, Laura K. Mackay, Zhenjun Chen, Laura Cook, Abderrahman Hachani, Alexandra J. Corbett, Antoine Roquilly, Jose A. Villadangos, Hamish E. G. McWilliam
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Mucosal associated invariant T (MAIT) cells mediate tissue homeostasis and antimicrobial immunity. However, the cells that express MHC class I-related protein 1 (MR1) and present microbial vitamin B-derived antigens (VitBAg) to MAIT cells remain unknown. We found that MR1 expression varied across tissues and cell types. Macrophages from the lung and peritoneal cavity expressed the highest levels of MR1 and were the most efficient at capturing and presenting VitBAg to MAIT cells. Expression of MR1 in macrophages was regulated transcriptionally and induced by the tissue environment and microbiota. Depletion of MR1 in macrophages, dendritic cells and monocytes changed the composition of the microbiota and impaired MAIT cell responses against bacterial infection. We concluded that macrophages are key for MR1 antigen presentation and MAIT cell immunity.
GPT-4o mini: Non-social science research article
Cohesin drives chromatin scanning during the RAD51-mediated homology search
Alberto Marin-Gonzalez, Adam T. Rybczynski, Namrata M. Nilavar, Daniel Nguyen, Andrew G. Li, Violetta Karwacki-Neisius, Roger S. Zou, Franklin J. Avilés-Våzquez, Masato T. Kanemaki, Ralph Scully, Taekjip Ha
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Cohesin folds genomes into chromatin loops, the roles of which are under debate. We found that double-strand breaks (DSBs) induce de novo formation of chromatin loops in human cells, with the loop base positioned at the DSB site. These loops form in the S and G 2 phases of the cell cycle during homologous recombination repair, concomitantly with DNA end resection and radiation-sensitive protein 51 (RAD51) recruitment. RAD51 shows a broad (megabase-sized) chromatin domain reflective of the homology search. This domain is regulated by cohesin unloader and overlaps with chromatin regions reeled through the break-anchored loop, suggesting that loop extrusion regulates the homology search. Indeed, depletion of the loop-extruding cohesin subunit NIPBL lowers homologous recombination in mouse embryonic stem cells, and this effect is more pronounced when the homologous recombination donor is hundreds of kilobases from the DSB. Our data indicate that loop-extruding cohesin promotes the mammalian homology search by facilitating break-chromatin interactions.
GPT-4o mini: Non-social science research article
Hexatic phase in covalent two-dimensional silver iodide
Thuy An Bui, David Lamprecht, Jacob Madsen, Marcin Kurpas, Peter Kotrusz, Alexander Markevich, Clemens Mangler, Jani Kotakoski, Lado Filipovic, Jannik C. Meyer, Timothy J. Pennycook, Viera SkĂĄkalovĂĄ, Kimmo Mustonen
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According to the Kosterlitz-Thouless-Halperin-Nelson-Young (KTHNY) theory, the transition from a solid to liquid in two dimensions proceeds through an orientationally ordered liquid-like hexatic phase. However, alternative mixed melting scenarios, in which melting proceeds through the hexatic phase with both continuous and discontinuous transitions, have also been observed in some two-dimensional systems. In this study, we imaged silver iodide embedded in multilayer graphene using time- and temperature-resolved in situ atomic-resolution scanning transmission electron microscopy and nanobeam electron diffraction. We observed the hexatic phase and provide evidence supporting a mixed melting scenario.
Science abstract < 200 char.: Not a research article
Experimental treatments target the brain’s ‘plumbing’
Jennie Erin Smith
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Animal studies—and controversial human surgeries—aim to boost fluid clearance to fight neurological disease
Science abstract < 200 char.: Not a research article
A tale of two forms of cohesin in DNA repair
Jiazhi Hu
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Extrusive and cohesive cohesin cooperate to repair double-strand breaks in DNA
Science abstract < 200 char.: Not a research article
Abandoned antiviral shows promise against dengue
Gretchen Vogel
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Big Pharma maker won’t bring drug to market for crippling disease
Science abstract < 200 char.: Not a research article
A vision of chromosome organization
Kaite Zhang, Vijay Ramani
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Cryogenic electron tomography of condensed chromatin enables multiscale analysis of its structure
Science abstract < 200 char.: Not a research article
In Other Journals
Keith T. Smith, Ekeoma Uzogara, Mattia Maroso, Sacha Vignieri, Madeleine Seale, Yury Suleymanov, Phil Szuromi
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Editors’ selections from the current scientific literature
Science abstract < 200 char.: Not a research article
Cracking chemistry with quantum simulations
Philipp Schleich, AlĂĄn Aspuru-Guzik
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Dynamic characteristics of complex chemical reactions can be accurately modeled by a quantum computer
Science abstract < 200 char.: Not a research article
A writing pact
Arjav Shah
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Science abstract < 200 char.: Not a research article
Putting the U in quantum
Zack Savitsky
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A century after the birth of quantum mechanics, its puzzles are pushing physicists to redefine reality—with themselves at the center
Science abstract < 200 char.: Not a research article
States step up to democratize AI-tailored computers
Celina Zhao
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New York state is building AI-ready machines for researchers who lack access to federal or corporate supercomputers
Science abstract < 200 char.: Not a research article
One hundred years of quantum mechanics
Marlan O. Scully, William G. Unruh
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Quantum mechanics has gone from a theory in test to becoming the foundation of new technologies
Science abstract < 200 char.: Not a research article
Smart irrigation needs smart policies in Iran
Alireza Gohari, Julie Shortridge, Ali Torabi Haghighi
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Science abstract < 200 char.: Not a research article
Address domestic pressures on endangered species
Charles A. Emogor
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Science abstract < 200 char.: Not a research article
Molecular basis of DNA cross-linking by bacteria
Orlando D. SchÀrer
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The structure of the bacterial genotoxin colibactin bound to DNA shows how it might contribute to cancer risk
Science abstract < 200 char.: Not a research article
‘Functional cure’ for HIV comes closer to reality
Jon Cohen
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Studies finger specific immune response that helps some people control the virus without drugs
Science abstract < 200 char.: Not a research article
In Science Journals
Jelena Stajic, Di Jiang, Phil Szuromi, Michael A. Funk, Madeleine Seale, Annalisa VanHook, Marc S. Lavine, Christiane P. Koch, Caroline Ash, Ekeoma Uzogara, Christiana N. Fogg, Molly Ogle
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Highlights from the Science family of journals
Science abstract < 200 char.: Not a research article
DOE boost for AI, fusion could squeeze basic research
Adrian Cho
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Reorganization could shift mission of the largest U.S. funder of physical sciences
Science abstract < 200 char.: Not a research article
Political persuasion by artificial intelligence
Lisa P. Argyle
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Large-scale studies of persuasive artificial intelligence reveal an extensive threat of misinformation
Science abstract < 200 char.: Not a research article
Centering disabled perspectives in technology The Double Bind of Disability Rebecca Monteleone University of Minnesota Press, 2025. 216 pp.
Johnathan Flowers
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Medical testing and devices must be reimagined to combat ableism, argues a disability scholar
Science abstract < 200 char.: Not a research article
A quantum centenary
Sumin Jin, Jelena Stajic, Eric Hand
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Science abstract < 200 char.: Not a research article
Toward science-based conviction criteria to deter wildlife crime
Ruocheng Hu, Shuangqi Liu, Lingyun Xiao, Ziyun Zhu, Yuehan Dou, Shen Zhang, Xiaotong Ren, Fangyuan Hua, Zhi Lu
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Risk assessment is needed for China’s new conviction standards based on monetary value
Science abstract < 200 char.: Not a research article
Erratum for the Research Article “Homogenized chlorine distribution for >27% power conversion efficiency in perovskite solar cells” by Z. Xiong et al .
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Science abstract < 200 char.: Not a research article
The United Nations Ocean Decade: A catalyst for international collaboration enhancing ocean monitoring and data
Patricia Miloslavich
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Science abstract < 200 char.: Not a research article
Can a smaller U.S. National Academies remain relevant?
Jeffrey Mervis
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Loss of federal support leads to staff layoffs and fewer committees of outside experts
Science abstract < 200 char.: Not a research article
Dawn of quantum simulators
Pedram Roushan, Leigh Martin
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Large-scale quantum processors are beginning to uncover new physical phenomena
Science abstract < 200 char.: Not a research article
Painting the phylogeny of life The Tree of Life: Solving Science’s Greatest Puzzle Max Telford Norton, 2025. 320 pp.
Yan Wong
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An evolutionary biologist invites readers to travel back in time to meet humanity’s distant ancestors
Science abstract < 200 char.: Not a research article
SAFE Act hinders US-China collaboration
Alex J. Yang, Richard B. Freeman, Sanhong Deng
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The levers of political persuasion with conversational artificial intelligence
Kobi Hackenburg, Ben M. Tappin, Luke Hewitt, Ed Saunders, Sid Black, Hause Lin, Catherine Fist, Helen Margetts, David G. Rand, Christopher Summerfield
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There are widespread fears that conversational artificial intelligence (AI) could soon exert unprecedented influence over human beliefs. In this work, in three large-scale experiments ( N = 76,977 participants), we deployed 19 large language models (LLMs)—including some post-trained explicitly for persuasion—to evaluate their persuasiveness on 707 political issues. We then checked the factual accuracy of 466,769 resulting LLM claims. We show that the persuasive power of current and near-future AI is likely to stem more from post-training and prompting methods—which boosted persuasiveness by as much as 51 and 27%, respectively—than from personalization or increasing model scale, which had smaller effects. We further show that these methods increased persuasion by exploiting LLMs’ ability to rapidly access and strategically deploy information and that, notably, where they increased AI persuasiveness, they also systematically decreased factual accuracy.

Science Advances

Generic title: Not a research article
Erratum for the Research Article “Impaired mitochondrial metabolism is a critical cancer vulnerability for MYC inhibitors” by W. Yang et al .
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Generic title: Not a research article
Erratum for the Research Article “Single-nucleosome imaging reveals steady-state motion of interphase chromatin in living human cells” by S. Iida et al .
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GPT-4o mini: Non-social science research article
Proteome-wide computational analyses reveal links between protein condensate formation and RNA biology
Snigdha Maiti, Swarnendu Tripathi, David W. Baggett, Aaron H. Phillips, Cheon-Gil Park, Jina Wang, Wahiduzzaman, William T. Freyaldenhoven, Swati Kinger, Brittany J. Pioso, John C. Bollinger, Ramiz Somjee, Benjamin Lang, M. Madan Babu, Richard W. Kriwacki
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Biomolecular condensates mediate dynamic compartmentalization of cellular processes. The multivalent interactions that underlie biomolecular condensation are often promoted by intrinsically disordered regions (IDRs) within proteins. Although the role of IDRs in biomolecular condensates is well appreciated, predicting whether an IDR forms condensates in cells remains challenging. Here, we developed a machine learning model to accurately predict the condensation behavior of IDRs, analyzing 215 IDRs from fusion oncoproteins in human embryonic kidney (HEK) 293T cells. We identified distinct sequence-derived physicochemical features associated with condensation. Leveraging these data, our model predicts that ~12% of the ~13,000 IDRs in the human proteome are likely to form cellular condensates, establishing a robust framework for proteome-wide analysis of IDR-mediated biomolecular condensation. Notably, proteins with condensate-forming IDRs are significantly enriched in RNA processing and splicing functions and are predominantly localized to membraneless organelles, highlighting a central role of IDR-mediated biomolecular condensation in cellular organization and RNA biology.
GPT-4o mini: Non-social science research article
Metabolic reprogramming in Fanconi anemia: Evidence of compromised glucose oxidation, enhanced ketogenesis, and metabolic inflexibility
Sara Vicente-Muñoz, Suzanne S. Summer, Thomas J. Galletta, Khyati Y. Mehta, Andrew N. Lane, Stella M. Davies, Lindsey E. Romick
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Fanconi anemia (FA) is a rare genetic disorder characterized by congenital abnormalities, bone marrow failure, and cancer predisposition. Approximately 80% of individuals with FA exhibit metabolic abnormalities, including failure to thrive and increased diabetes risk. Current management relies on physical examinations and glucose tolerance tests, which lack dynamic metabolic assessment. We used stable isotope labeling with 13 C 6 -glucose to track nutrient metabolism in individuals with FA. Unlike controls, persons with FA showed no postprandial increase in energy expenditure, sustained hyperglycemia accompanied by elevated glycolysis, and a markedly higher ketogenic response supporting a shift toward lipid utilization. Hormonal analysis revealed secretion of pancreatic hormones and ghrelin in individuals with FA, while incretins were unaffected. These results reflect a profound alteration in substrate utilization involving glucose intolerance, insulin resistance, and ÎČ-cell dysfunction. This innovative approach provides unprecedented insights into FA pathophysiology, which will inform more targeted nutritional and therapeutic interventions for this complex disorder.
GPT-4o mini: Non-social science research article
Arp2/3-dependent regulation of ciliogenesis governs adaptive distal tubular epithelial cell states in kidney disease
Manuel Rogg, Lisa Weißer, Jasmin I. Maier, August Sigle, Martin HelmstĂ€dter, Marlene Stigler, Alena Sammarco, Katja GrĂ€we, Grigor Andreev, Charlotte Kark, Suresh K. Ramakrishnan, Cem Özel, Linus Butt, Frederic Arnold, Wibke Bechtel-Walz, Oliver Schilling, Yakup Tanriver, Paul Brinkkötter, Markus Grabbert, Matias Simons, Martin Werner, Oliver Kretz, Thomas Benzing, Tobias B. Huber, Christoph Schell
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Proteinuric kidney disease substantially affects renal tubules through incompletely understood mechanisms. We identify elongation of primary cilia in distal renal tubules in the context of glomerular nephropathy. In renal biopsies and mouse models, tubular injury correlates with ciliary elongation, tubule dilation, and disruption of the cortical actin cytoskeleton. In vitro studies implicate biophysical cues of the glomerular filtrate and subsequent dysregulation of the actin cytoskeleton as contributing factors, confirmed by conditional deletion of N-WASP and Arp2/3 in vivo and in vitro. Electron and fluorescence microscopy revealed enlarged ciliary pockets, basal body mislocalization, and intracellular cilia formation in Arp3 knockout conditions. Transcriptome analysis identifies the essential role of cilia in maintaining adaptive tubular cell states, while persistent activation leads to disease progression through extracellular matrix remodeling, exemplified by Tenascin-C. Our findings establish cilia as central mediators of tubular adaptation to injury and identify the Arp2/3-dependent actin cytoskeleton as a critical regulator, providing essential insights into the pathogenesis of chronic kidney disease.
GPT-4o mini: Non-social science research article
Ultrasonic cavitation shock wave exfoliation dynamics of 2D materials revealed in situ by MHz XFEL imaging and multiphysics modeling
Kang Xiang, Ling Qin, Shi Huang, Hongyuan Song, Vasilii Bazhenov, Valerio Bellucci, Sarlota Birnơteinová, Raphael de Wijn, Jayanath C. P. Koliyadu, Faisal H. M. Koua, Adam Round, Ekaterina Round, Abhisakh Sarma, Tokushi Sato, Marcin Sikorski, Yuhe Zhang, Eleni Myrto Asimakopoulou, Pablo Villanueva-Perez, Kyriakos Porfyrakis, Iakovos Tzanakis, Dmitry G. Eskin, Nicole Grobert, Adrian P. Mancuso, Richard Bean, Patrik Vagovič, Jiawei Mi
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Using megahertz x-ray free electron laser imaging with x-ray pulses of ~25 femtoseconds and a machine-learning strategy, we have conducted comprehensive in situ imaging studies on the dynamics of cavitation bubble clouds in ultrasound fields at the SPB/SFX beamline of the European XFEL. The research unambiguously revealed the quasi-simultaneous implosion of multiple bubbles and simultaneous collapse of bubble cloud in nanosecond scale and their dynamic impacts onto two-dimensional (2D) materials for layer exfoliation. We have also performed multiphysics modeling to simulate the shock wave emission, propagation, impact, and stresses produced. We elucidated the critical conditions for producing instant or fatigue exfoliation and the effects of bonding strengths and structural defects on the exfoliation rate. The discoveries have filled the long-standing missing knowledge gaps in the underlying physics of exfoliating 2D materials in ultrasound fields, providing a solid theoretical foundation for optimizing and scaling-up operation to produce 2D materials in a much more cost-effective and sustainable way.
GPT-4o mini: Non-social science research article
FeaSion decodes the regulatory landscape and functional diversity of RNA polymerase II CTD phosphorylation
Junyi Zhu, Lijun Bao, Shengchun Xu, Xiong Ji
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RNA polymerase II’s (RNAPII) C-terminal domain (CTD) contains five phosphorylation sites (pY1, pS2, pT4, pS5, and pS7). However, their regulatome and immediate functions remain elusive. Using the FeaSion (Feature-Screening-Function) strategy, we mapped RNAPII phosphorylation site-specific interactors and genomic occupancy, revealing links to preferential gene length, exon number, and transcription factor binding. CRISPR-FACS screens identified different candidate regulators modulating individual phosphorylation sites. Rapid replacement showed site-specific mutations influence different transcriptional processes, histone modifications (H3K36me3 and H2A.Zac), and preferentially affect developmental and signaling genes. Moreover, we demonstrate kinases CLK1/4 and YES1 directly regulate RNAPII transcription—via site-specific CTD phosphorylation—to control developmental, metabolic, and signal transduction programs. Our findings reveal an expanded regulatory network involving >100 kinase and phosphatases that potentially orchestrate CTD phosphorylation beyond their canonical functions, establishing a multilayered phospho-regulatory network with broad implications for gene expression control in development and disease.
GPT-4o mini: Non-social science research article
Achieving cysteine-selective peptide/protein bioconjugation via tunable triazine-pyridine chemistry
Chaoming Wang, Ruijuan Yin, Hao Jiang, Qinbo Ma, Hongli Zhang, Shanyue Zheng, Rilei Yu, Han Liu, Xuechen Li, Tao Jiang
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The development of cysteine (Cys)–selective bioconjugation reagents with enhanced stability remains a critical challenge for therapeutic applications such as antibody-drug conjugates (ADCs). Leveraging the modular 1,3,5-triazine scaffold, we report the design and optimization of triazine-pyridinium chemistry (TPC) reagents for selective Cys labeling. Through systematic structural modifications and computational studies, we identified reagent 9b , featuring a para - N , N -dimethylaminopyridinium leaving group and ethoxy substitution, as the most efficient and selective candidate for selective protein labeling. 9b demonstrated near-quantitative Cys labeling (>95% yield) under physiological conditions (pH 7.4) while suppressing tyrosine reactivity, a limitation of earlier TPC probes. The reagent demonstrated excellent compatibility with various peptides and proteins, including therapeutic antibodies like trastuzumab, showcasing its potential for constructing ADCs. The optimized labeling ensured robust stability of the conjugates in biological environments, highlighting the practical applicability of this methodology. Our findings underscore the promise of triazine-pyridinium chemistry in developing stable, site-specific bioconjugates for targeted therapeutic applications.
GPT-4o mini: Non-social science research article
Asymmetric synthesis of chiral boronic esters featuring nonadjacent axial and flexible, acyclic central chirality
Xi-Zhang Zou, Yu-Wen Sun, De-Wei Gao
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Nonadjacent chirality is prevalent in pharmaceuticals and bioactive molecules, but prior studies primarily focused on constructing noncontiguous stereocenters. However, the construction of nonadjacent axial and flexible, acyclic central chirality often involves highly flexible transition states, posing challenges in achieving precise control over enantio- and diastereoselectivity. Here, extensive ligand screening, followed by structural modification and optimization, identified a bulky P , N -phosphinooxazoline ( P , N -phox) ligand derived from l -serine, enabling the direct asymmetric construction of atropisomers with axial and flexible, acyclic central chirality. The reaction demonstrates broad substrate scope, accommodating diverse aryl, alkyl, and natural product–derived boronic esters, and tolerates aryl trifluoromethanesulfonates (ArOTfs) with varying electronic and steric properties. Mechanistic studies indicate a palladium(II) intermediate, with 1,2-carbon migration as the rate-determining step. Furthermore, product derivatization introduces diverse functional groups, enhancing molecular complexity and facilitating downstream transformations.
GPT-4o mini: Non-social science research article
How ATP and dATP reposition class III ribonucleotide reductase cone domains to regulate enzyme activity
Gisele A. Andree, Kelsey R. Miller-Brown, Zhuangyu Zhao, Ally K. Smith, Christopher D. Dawson, Daniel J. Deredge, Catherine L. Drennan
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Ribonucleotide reductases (RNRs) catalyze the conversion of ribonucleotides to deoxyribonucleotides. In the majority of cases, RNR activity is allosterically regulated by the cellular 2â€Č-deoxyadenosine 5â€Č-triphosphate (dATP)/adenosine 5â€Č-triphosphate (ATP) ratio. To investigate allosteric activity regulation in anaerobic or class III (glycyl radical containing) RNRs, we determine cryo–electron microscopy structures of the class III RNR from Streptococcus thermophilus (StNrdD). We find that StNrdD’s regulatory “cone” domains adopt markedly different conformations depending on whether the activator ATP or the inhibitor dATP is bound and that these different conformations alternatively position an “active site flap” toward the active site (ATP-bound) or away (dATP-bound). In contrast, the position of the glycyl radical domain is unaffected by the cone domain conformations, suggesting that StNrdD activity is regulated through control of substrate binding rather than control of radical transfer. Hydrogen-deuterium exchange mass spectrometry and mutagenesis support the structural findings. In addition, our structural data provide insight into the molecular basis by which ATP and dATP binding lead to the observed differential cone domain conformations.
GPT-4o mini: Non-social science research article
North Atlantic Subtropical High forcing of Atlantic Warm Pool hydroclimate variability on millennial to orbital timescales
Hanying Li, Ashish Sinha, Amos Winter, Pengzhen Duan, Sophie Warken, Jun Hu, Shihao Lei, Xiyu Dong, Lijuan Sha, Haiwei Zhang, Gayatri Kathayat, Liang Yi, Youfeng Ning, Hai Cheng
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Orbital-scale variations in insolation are widely considered to drive tropical and monsoonal rainfall, with higher summer insolation linked to stronger precipitation. Here, we present a precisely dated speleothem record from Cuba that reconstructs Atlantic Warm Pool (AWP) hydroclimate over the past 129,000 years and challenges this paradigm. Instead, we identify a previously unrecognized link between AWP hydroclimate and the North Atlantic Subtropical High (NASH) operating on millennial to orbital timescales. During intervals of high summer insolation coupled with cooler tropical North Atlantic sea surface temperatures (SSTs), NASH strengthens and expands westward, reducing rainfall across the AWP. This SST-NASH coupling amplified precessional-scale hydroclimate variability between 130 and 60 ka, when insolation amplitude was nearly twice that of the 60- to 12-ka interval. Our data further show that particularly strong insolation peaks at 105 and 126 ka caused pronounced westward NASH expansion, triggering two extreme dry events, similar to the process observed during modern midsummer dry spells.
GPT-4o mini: Non-social science research article
Centrin-POC5 inner scaffold provides distal centriole integrity for sperm flagellar assembly
Yutaka Takeda, Eriko Kajikawa, Jingwen Wang, Morié Ishida, Manfred Alsheimer, Hiroki Shibuya
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Centrioles undergo marked transformations during spermatogenesis that are essential for sperm motility and male fertility. Despite their importance, the molecular mechanisms and ultrastructural dynamics underlying these transformations remain largely unknown. Here, we apply ultrastructure expansion microscopy and reveal previously unrecognized centriolar architectural changes in mouse male germ cells, including geometry switching between the two centrioles and stage-specific removal of distal tip proteins such as centrin and SFI1. We further identify the centrin-POC5 inner scaffold as a key structure selectively augmented at the distal centriole, which directly forms and anchors the flagellum. Functional analyses of Poc5 knockout mice demonstrate that this inner scaffold is essential for distal centriole integrity and flagellar assembly in spermatids but dispensable in somatic cells and spermatocytes. Our findings provide a spatiotemporal molecular atlas of centriole remodeling during spermatogenesis and uncover the critical physiological role of the centriolar centrin-POC5 inner scaffold in mammalian reproduction.
GPT-4o mini: Non-social science research article
State-dependent modulation of spiny projection neurons controls levodopa-induced dyskinesia in a mouse model of Parkinson’s disease
Shenyu Zhai, Qiaoling Cui, David Wokosin, Linqing Sun, Tatiana Tkatch, Jill R. Crittenden, Ann M. Graybiel, D. James Surmeier
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In the later stages of Parkinson’s disease, patients often manifest levodopa-induced dyskinesia (LID), compromising their quality of life. The pathophysiology underlying LID is poorly understood, and treatment options are limited. To move toward filling this treatment gap, the intrinsic and synaptic changes in striatal spiny projection neurons (SPNs) triggered by the sustained elevation of dopamine (DA) during dyskinesia were characterized using electrophysiological, pharmacological, molecular, and behavioral approaches. Our studies revealed that the intrinsic excitability and functional corticostriatal connectivity of SPNs in dyskinetic mice oscillate between LID on- and off-states in a cell- and state-specific manner. Although triggered by levodopa, these oscillations in SPN properties depended on both dopaminergic and cholinergic signaling. Disrupting M1 muscarinic receptor signaling specifically in indirect pathway SPNs or deleting its downstream signaling partner CalDAG-GEFI blunted the levodopa-induced alterations in functional connectivity, enhanced the motoric benefits of levodopa, and attenuated LID severity.
GPT-4o mini: Non-social science research article
Optogenetic silencing by combining a rhodopsin cyclase with an engineered cGMP-gated potassium channel
Anika Spreen, Nidish Ponath Sadanandan, Martin Winfried Schneider, Enrico Kuehn, Andries Napo Leemisa, Roberta De Zio, Niklas Meyer, Wayne Busse, Bela Erlinghagen, Lea Adenauer, Thoralf Opitz, Wolfgang Bönigk, Enrico Schiewer, Jonas Heer, Dietmar Schmitz, Johannes Vierock, Heinz Beck, Peter Hegemann, Herwig Baier, Franziska Schneider-Warme, Yinth Andrea Bernal Sierra, Reinhard Seifert
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Since the advent of optogenetics, great progress has been made in developing tools to modulate and detect cellular activity using light. We present a two-component optogenetic silencing tool, RoCK (rhodopsin cyclase/K + channel), which pairs the rhodopsin-guanylyl cyclase CaRhGC with customized SthK K + channels that are engineered to open selectively upon guanosine 3â€Č,5â€Č-monophosphate (cGMP) binding. By enhancing the cGMP sensitivity and open probability of SthK mutants, we obtained four channel variants suited for different levels of cGMP concentration. CaRhGC’s membrane-bound nature enables localized cGMP production, and the lack of dark activity reduces the risk for off-target effects. Optimized RoCK effectively modulated cellular activity in mouse hippocampal neurons, in acute hippocampal slices, and in rabbit cardiomyocytes. In zebrafish, RoCK silenced motor neurons in vivo, suppressing the characteristic coiling behavior of embryos, thus highlighting its potential for behavioral studies. In summary, RoCK expands our optogenetic toolkit threefold for fast cGMP production, fast cGMP sensing, and K + -based cell silencing.
GPT-4o mini: Non-social science research article
Neurophysiological signatures of default mode network dysfunction and cognitive decline in Alzheimer’s disease
Recep A. Ozdemir, Brice Passera, Peter J. Fried, Daniel Press, Lynn W. Shaughnessy, Stephanie Buss, Mouhsin M. Shafi
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Neural hyperexcitability and network dysfunction are neurophysiological hallmarks of Alzheimer’s disease (AD) in animal studies, but their presence and clinical relevance in humans remain poorly understood. We introduce a perturbation-based approach combining transcranial magnetic stimulation and electroencephalography (TMS-EEG), alongside resting-state EEG (rsEEG), to investigate neurophysiological basis of default mode network (DMN) dysfunction in early AD. While rsEEG revealed global neural slowing and disrupted synchrony, these measures reflected widespread changes in brain neurophysiology without network-specific insights. In contrast, TMS-EEG identified network-specific local hyperexcitability in the parietal DMN and disrupted connectivity with frontal DMN regions, which uniquely predicted distinct cognitive impairments and mediated the link between structural brain integrity and cognition. Our findings provide critical insights into how network-specific neurophysiological disruptions contribute to AD-related cognitive dysfunction. Perturbation-based assessments hold promise as potential markers of early detection, disease progression, and target engagement for disease-modifying therapies aiming to restore abnormal neurophysiology in AD.
GPT-4o mini: Non-social science research article
Single-cell sequencing of rodent ventral pallidum reveals diverse neuronal subtypes with noncanonical interregional continuity
David J. Ottenheimer, Rhiana C. Simon, Brandy A. Briones, Cassidy T. Burke, Anna J. Bowen, Susan M. Ferguson, Garret D. Stuber
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The ventral pallidum (VP) was defined as a basal ganglia nucleus with dense input from ventral striatum. To further investigate its regional identity, we conducted a cross-species transcriptional characterization of VP cell types. We performed single-nucleus RNA sequencing of VP tissue from mice and rats and identified 16 conserved VP neuronal subclasses, including 14 γ-aminobutyric acid–releasing subclasses from three developmental classes. Combining our sequencing data with a spatial atlas revealed that all VP subclasses extended beyond the traditional borders in VP. Integrating our VP data with published striatal, hypothalamic, and extended amygdalar sequencing confirmed that cell types are shared among these regions. Given the role of VP in feeding, we also assessed the transcriptional impact of high-fat diet, which altered expression of genes involved in oxidative phosphorylation and inhibitory signaling. Overall, our results demonstrate that VP is not a transcriptionally discrete nucleus; rather, VP contains cell types with diverse expression patterns overlapping with regions beyond the basal ganglia.
GPT-4o mini: Non-social science research article
Ultrasoft hydrogel immune millirobot with multimodal locomotion
Zhiqiang Zheng, Sinan Ozgun Demir, Anping Wu, Shihao Zhong, Zhengyuan Xin, Chunxu Yuan, Huaping Wang, Metin Sitti, Yu Sun, Lixin Dong
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Advancements in cellular immunotherapy demanded efficient immune cell delivery. To meet this need, we introduced hydrogel-based immune millirobots designed for high immune cell loading and precise tumor targeting. These ultrasoft robots, embedded with magnetic nanoparticles, exhibited adaptable locomotion: walking, rolling, climbing, and undulating, enabling navigation through complex biological environments and alignment with varied tumor morphologies. They responded to magnetic fields and ionic or pH changes, facilitating propulsion, grasping, and localized delivery. In vitro, the millirobots eradicated three-dimensional tumor models in four days; in vivo, they notably reduced tumor growth in HepG2-luc tumor-bearing nude mice within 15 days. Bioluminescence imaging confirmed enhanced natural killer cell activity at tumor sites. The robots demonstrated excellent biocompatibility and biodegradability and caused no adverse effects postimplantation. This work showcased a responsive, soft robotic system with potential for advancing immune cell delivery and exploring tumor-immune dynamics in cancer therapy.
GPT-4o mini: Non-social science research article
Quantum-inspired computational wavefront shaping enables turbulence-resilient distributed aperture synthesis imaging
Shuai Sun, Zhen-Wu Nie, Yao-Kun Xu, Chen Chang, Ping-Xing Chen, Pu-Xiang Lai, Wei-Tao Liu
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Wavefront shaping is essential for optical imaging through aberrations, but conventional methods rely on physical modulators and iterative optimization, hindering real-time applications in dynamic environments like turbulence. Inspired by quantum nonlocal aberration cancellation, we propose a modulator-free, computational wavefront shaping technique. By leveraging classical correlated illumination and single-pixel detection, our method corrects aberrations via virtual phase modulation in the computational domain, eliminating physical spatial light modulators or array sensors. As validation, we demonstrate this approach in a distributed optical aperture synthesis imaging, where a phase-randomized laser array illuminates objects through turbulence. Despite unknown subsource phase mismatch and turbulent distortion, we reconstruct diffraction-limited images of a 3-meter standoff object, at the theoretical resolution limit of the synthetic aperture (0.157 millimeter experimentally; 97% of the 0.152-millimeter limit). This work transforms traditionally intractable hardware challenges into computationally solvable problems, enabling turbulence-resilient standoff imaging without adaptive optics.
GPT-4o mini: Non-social science research article
Realization of a functioning dual-type trapped-ion quantum network node
Yuan-Yuan Huang, Lu Feng, Yu-Kai Wu, Yu-Lin Xu, Lin Zhang, Zhai-Bin Cui, Chuan-Xin Huang, Chi Zhang, Shi-An Guo, Quan-Xin Mei, Bin-Xiang Qi, Yong Xu, Yun-Fei Pu, Zi-Chao Zhou, Lu-Ming Duan
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Trapped ions constitute a promising platform for implementation of a quantum network. Recently, a dual-type qubit scheme has been realized in a quantum network node where communication qubits and memory qubits are encoded in different energy levels of the same ion species, such that the generation of ion-photon entanglement on the communication qubits has negligible cross-talk error on the preloaded quantum information in the memory qubits. However, to achieve versatile applications of a quantum network, a crucial component of the dual-type node, namely, the entangling gate between the communication and the memory qubits, is still missing. Here, we report a dual-type quantum network node equipped with ion-photon entanglement generation, cross-talk–free quantum memory, and entangling gates between dual-type qubits simultaneously. We demonstrate its practical applications including the passive quantum-state teleportation and the preparation of multipartite entangled state. Our work achieves the necessary components of a dual-type quantum network node.
GPT-4o mini: Non-social science research article
Molecular basis of very-long-chain fatty acid elongation by the CER6-GL2 enzyme complex in plant wax biosynthesis
Yaqi Liu, Yuan Chen, Xue Zhang, Mengxue Li, Ji Wang, Zhao Yang, Miaolian Ma, Zhiwei Zhao, Hongtao Liu, Fang Yu, Peng Zhang
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Plant cuticular waxes, crucial hydrophobic barriers, are primarily composed of aliphatics derived from very-long-chain fatty acids (VLCFAs; >C28) synthesized by the endoplasmic reticulum fatty acid elongase complex. The core catalytic subunit, CER6 (KCS6), requires interaction with the BAHD protein GL2 to elongate acyl chains beyond C28. We determined the cryo–electron microscopy structure of the maize CER6-GL2 (ZmCER6-ZmGL2) heterotetramer bound to coenzyme A (CoA) and malonyl-CoA, revealing a membrane-anchored ZmCER6 homodimer, with each cytosolic catalytic domain having a substrate tunnel. Structural and biochemical analyses suggest that ZmGL2’s amino terminus binds ZmCER6 and remodels its substrate tunnel into a continuous hydrophobic channel at their interface, enabling acyl-chain elongation. CER6 uses a distinct Cys-His-Asn catalytic triad, differing from the histidine-dependent catalysis of mammalian elongases. GL2 acts noncatalytically to modulate CER6 activity. Comparative analyses suggest that species-specific substrate preferences arise from divergent CER2/GL2 interactions. This work elucidates the acyl-chain elongation mechanism of plant VLCFA biosynthesis and provides a foundation for engineering stress-resilient crops via wax modulation.
GPT-4o mini: Non-social science research article
VAPB is a negative regulator of STING-mediated innate immune signaling
Wangsheng Ji, Yin Zhang, Lianfei Zhang, Qingqing Liu, Shengbo Niu, Yuqun Feng, Feilong Chen, Xinqi Liu, Xia Li
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Stimulator of IFN genes (STING) is an endoplasmic reticulum (ER) signaling receptor involved in the type I interferon response to pathogen- or self-derived cytosolic double-stranded DNA. Excessive activation of STING is associated with many diseases, but the regulatory mechanism of STING activation remains to be further elucidated. Here, we identify VAPB as a negative regulator of STING-mediated innate immune response. VAPB deficiency increases the expression of type I interferons under resting conditions or upon stimulation. Mechanistically, VAPB associates and translocates with STING, thereby regulating STING translocation, oligomerization, and recruitment of TBK1. In vivo, deficiency of VAPB enhances the expression of type I interferons and prevents lethality following HSV-1 infection. Furthermore, VAPB P56S, a pathogenic mutation causing amyotrophic lateral sclerosis (ALS), can promote STING-mediated innate immune response under resting conditions, which might contribute to further understanding of the relationship between cGAS-STING pathway and ALS. Our study identifies VAPB as a critical regulating factor in cGAS-STING–mediated innate immune responses.
GPT-4o mini: Non-social science research article
Role of CEBPa in trophectoderm competence installment
Xiao Wei, Irepan Salvador-Martinez, Maciej Meglicki, Marcos Plana-Carmona, Antonios Klonizakis, Barbara Pernaute, Manuel Irimia, Gregoire Stik, Mina Popovic, Guillem Torcal Garcia, Holger Heyn, Magdalena Zernicka-Goetz, Thomas Graf
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During mouse embryogenesis, totipotency is gradually lost, and, at the 16-cell stage, blastomeres begin to bifurcate into trophectoderm (future placenta) and inner cell mass (future fetus). Although this process is well studied, when and how blastomeres acquire the competence for lineage specification remains unclear. Here, we describe that CEBPa becomes up-regulated at the transition from the two- to the four-cell stage by NR5A2 and is also selectively expressed in the trophectoderm at the blastocyst stage. Its knockout decreases the proportion of trophectoderm cells and delays the morula to blastocyst transition. Conversely, CEBPa overexpression in mouse embryonic stem cells, used as a proxy, drives their differentiation into trophectoderm-like cells, enabling the identification of CEBPa-regulated trophectoderm-specific enhancers. A subset of these enhancers, associated with key trophectoderm-related transcription factor genes, is primed or activated in four- and eight-cell embryos. Together, our data suggest that CEBPa plays a role in the installment of trophectoderm competence before the first lineage bifurcation and in trophectoderm specification.
GPT-4o mini: Non-social science research article
Specialized signaling centers direct cell fate and spatial organization in a mesodermal organoid model
Evangelia Skoufa, Jixing Zhong, Kelly Hu, Oliver Kahre, Georgios Tsissios, Louise Carrau, Antonio Herrera, Albert Dominguez Mantes, Marion Leleu, Alejandro Castilla-Ibeas, Hwanseok Jang, Martin Weigert, Gioele La Manno, Matthias Lutolf, Marian Ros, Can Aztekin
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Specialized signaling centers orchestrate robust development and regeneration. Limb morphogenesis, for instance, requires interactions between the mesoderm and the signaling center apical-ectodermal ridge (AER), whose properties and role in cell fate decisions have remained challenging to dissect. To tackle this, we developed mouse embryonic stem cell (mESC)–based heterogeneous cultures and a three-dimensional (3D) organoid model, termed budoids, comprising cells with AER, surface ectoderm, and mesoderm properties. mESCs were first induced into heterogeneous cultures that self-organized into domes in 2D. Aggregating these cultures formed mesodermal organoids with certain limb bud–like features in 3D, exhibiting chondrogenesis-based symmetry breaking and elongation. Using our organoids and quantitative in situ expression profiling, we uncovered that AER-like cells support nearby limb mesoderm and fibroblast identities while enhancing tissue polarization that permits distant cartilage formation. Together, our findings provide a powerful model to study epithelial signaling center-mesoderm interactions during morphogenesis and reveal the ability of signaling center AER cells to concurrently modulate cell fate and spatial organization.
GPT-4o mini: Non-social science research article
B cell–reactive neoantigens boost antitumor immunity
Jeong Yeon Kim, Jinhyeon An, Soyeon Kim, Hye-Yeong Jo, Eun Ji Lee, Minju Kim, Hongui Cha, Se-Hoon Lee, Hyun-Young Park, Sang Cheol Kim, Dae-Yeon Cho, Inkyung Shin, Suhwan Chang, Jung Kyoon Choi
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B cell involvement in neoantigen-driven antitumor immunity remains largely unexplored because of challenges in predicting B cell responses. Here, we developed a method to identify B cell epitopes by characterizing >437,000 peptides tested for IgG binding and >370 million B cell receptor (BCR) clones. Our single-cell BCR sequencing of pre– and post–severe acute respiratory syndrome coronavirus 2 vaccination validates the performance of this method. Mouse vaccination experiments demonstrate that B cell neoepitopes enhance immune responses, driving BCR expansion and tumor regression. Genomic analysis of >8000 The Cancer Genome Atlas (TCGA) samples reveals an inverse correlation between predicted B cell reactivity and mutation allele frequencies, indicating B cell–mediated neoantigen elimination. Applying our multiomics model to checkpoint blockade responses in 2074 patients highlights the clinical relevance of B cell neoepitope prediction. A meta-analysis of 11 personalized vaccine trials involving 1739 neoantigens suggests that incorporating B cell neoepitopes may improve vaccination efficacy. These results underscore the significance of B cell–reactive neoantigens in antitumor immunity.
GPT-4o mini: Non-social science research article
Targeting multiple genetic defects of mitochondrial diseases with a single bacterial lipoate protein ligase
Zhijuan Hu, Junru Yu, Ziwei Liu, Min Jiang, An-Ping Zeng
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Metabolic disorders caused by defects in energy metabolism can lead to many life-threatening diseases; their therapy remains elusive in most cases. Conventional gene therapy relies on the “one gene for one genetic defect” strategy. Here, we demonstrate a more efficient strategy to target multiple genetic defects with a single gene intervention. Specifically, we used a bacterial lipoate protein ligase involved in protein lipoylation to rescue mitochondrial dysfunctions in human lipoylation pathway ( LIPT2 , LIAS , and LIPT1 ), lipoyl precursor supply ( MECR ), and sulfur insertion accessary partner ( FDX1 ). The efficacy and safety of Escherichia coli –derived LplA or Bacillus subtilis –derived LplJ were validated in human cells and mouse models. LplA knock-in mice exhibited normal health with enhanced energy expenditure. Overexpressing LplA through a mating strategy rescued embryonic lethality in Lipt1 −/− mutants, yielding viable offspring with normal body weight, energy expenditure, tissue morphology, and biochemical profile. Our work highlights how evolutionary differences in biosynthetic pathways between humans and bacteria can be leveraged for cross-species therapeutic innovations.
GPT-4o mini: Non-social science research article
An ultrasmall theranostic nanozyme for abdominal aortic aneurysm management and therapeutic efficacy monitoring
Wanling Liu, Yihong Zhang, Xiaomiao Cui, Qi Sun, Xiang Gu, Tong Li, Shicheng He, Zhexue Qin, Hui Wei
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Abdominal aortic aneurysm (AAA) is a life-threatening condition lacking effective drug interventions, and its progression is difficult to predict, complicating early clinical management. Here, we present a reactive oxygen species–responsive theranostic nanozyme for AAA early intervention and efficacy monitoring, establishing a feedback loop between treatment and diagnostics. OZn, designed by encapsulating ultrasmall Prussian blue (SPBZn) within oxidation-sensitive dextran, targets aneurysm sites, where it responds to inflammatory microenvironments by releasing SPBZn. In vivo, SPBZn not only mitigated CaCl 2 -induced aneurysm expansion and AAA progression in rat models but also enabled noninvasive diagnostic monitoring via urinalysis due to its enzymatic activities and renal metabolism. This theranostic nanozyme dynamically regulated therapeutic efficacy and provided feedback on disease progression. By preventing vascular rupture through early intervention and enabling precise drug administration, this work highlights a transformative strategy for integrating diagnostics and therapy to improve AAA management and clinical outcomes.
GPT-4o mini: Non-social science research article
Negligible contribution from aerosols to recent trends in Earth’s energy imbalance
Chanyoung Park, Brian J. Soden
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During the 21st century, Earth’s energy imbalance (EEI) at the top of atmosphere has markedly increased because of greater absorbed shortwave (SW) rather than reduced outgoing longwave radiation. Previous studies using single-forcing (aerosol-only) experiments attributed approximately half of the positive SW trend to reductions in anthropogenic aerosols, particularly in the Northern Hemisphere (NH). In contrast, our analysis using observations and reanalysis indicates that both aerosol-radiation and aerosol-cloud interactions have made a negligible contribution to recent EEI trends. While NH anthropogenic aerosols have decreased, enhanced emissions from wildfires and volcanic activity in the Southern Hemisphere (SH) have produced comparable increases, yielding little net global impact. This hemispheric compensation also suggests that model-based estimates may overestimate aerosol influence by overlooking SH aerosol contributions. Despite uncertainties in aerosol proxies, the consistent results from two complementary proxies—satellite-derived aerosol index and reanalysis-based sulfate mass concentration—highlight the importance of accounting for natural source aerosols when assessing EEI trends.
GPT-4o mini: Non-social science research article
Quantum tunneling of homogeneous catalyst altering CO 2 reduction reaction pathway for stable Mg-CO 2 batteries
Wenbo Liu, Lu Li, Menggang Li, Zongqiang Sun, Youxing Liu, Shaojun Guo
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Mg-CO 2 battery has emerged as a promising battery technology by harnessing greenhouse gas as an active material. However, its development is greatly hindered by sluggish CO 2 conversion kinetics, resulting in high overpotentials and poor reversibility. Herein, we report a class of 2,2,6,6-tetramethylpiperidoxyl (TEMPO) homogeneous catalyst to regulate CO 2 adsorption and optimize reaction pathways through a quantum tunneling effect induced by electron transfer from the TEMPO free radical to CO 2 that classical electron transfer mechanisms cannot overcome. This quantum tunneling effect not only enables CO 2 reduction at lower voltage but also regulates the CO 2 adsorption environment, leading to the alternated reaction pathway for the formation of flower-like MgC 2 O 4 as the discharge product, rather than the dense MgCO 3 typically formed in traditional models. The TEMPO-based Mg-CO 2 batteries achieve an exceptional discharge voltage of 1.1 volts and a charge voltage of 1.3 volts, with stable cycling performance for over 450 hours, representing the best-reported performance among Mg-CO 2 battery systems to date.
GPT-4o mini: Non-social science research article
Distinguishing active HIV-1 infection from vaccine-induced seropositivity in HIV vaccine trial participants
Ketan Dighe, Oguzhan Colak, Parikshit Moitra, Maha Alafeef, David Skrodzki, Teresea Aditya, Pranay Saha, Nivetha Gunaseelan, John Hural, Casey Pinto, Dipanjan Pan
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Vaccine-induced seropositivity (VISP) causes antibodies produced by HIV-1 vaccines to react with standard serological tests, complicating diagnosis and leading to false positives. To distinguish VISP from true HIV infections, we developed a rapid, multiplexed companion electrochemical assay that integrates a three-dimensional–printed device with screen-printed electrodes coated with antigen, antibody, and methylene blue–labeled antisense oligonucleotide probes. The test delivers quantitative results within 5 minutes with calculated analytical limits of detection of 5.88 picograms per milliliter for p24 antigen, 10.96 picograms per milliliter for anti-p24 antibody, and 1259 copies per milliliter for HIV-1 RNA, with minimal cross-reactivity. Clinical testing with 104 plasma samples obtained from vaccinated/unvaccinated, HIV-positive/negative individuals demonstrated 95% sensitivity and 98% specificity in distinguishing active HIV-1 infection from VISP cases. Receiver operating characteristic analysis produced area under the curve values of 0.9888 for HIV-1 RNA, 0.9705 for anti-p24 antibody, and 0.9356 for p24 antigen. These findings highlight the potential to reduce false-positive results caused by VISP by integrating this diagnostic test in clinical trials and large-scale vaccination programs.
GPT-4o mini: Non-social science research article
Structural assembly of maize CRY-GL2 photosignaling complex provides insights into its regulatory role in cuticular wax biosynthesis
Yaqi Liu, Zhiwei Zhao, Xue Zhang, Yahui Hao, Fan Feng, Yuan Chen, Ji Wang, Miaolian Ma, Jianxu Li, Fang Yu, Hongtao Liu, Peng Zhang
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Plant cryptochromes (CRYs) are blue-light photoreceptors regulating physiological processes via oligomerization-dependent interaction with effectors. However, the structural basis for photoactivated CRY-effector assembly remains elusive. Here, we report the crystal structure of an active maize CRY1c photolyase homology region in complex with GLOSSY2 (ZmGL2), a BAHD acyltransferase family protein that could form an enzyme complex with ECERIFERUM6 (ZmCER6) and direct very-long-chain fatty acid elongation in cuticular wax biosynthesis. Light-activated CRY1c forms a homotetrameric scaffold. Each protomer binds one ZmGL2 molecule via conformational changes, forming a 4:4 hetero-octameric photosignaling complex. Structural alignment shows 78% overlap between the GL2-binding interfaces in the ZmCRY1c-ZmGL2 and ZmCER6-ZmGL2 complexes. Biochemically, CRY1c dose-dependently inhibits ZmCER6-ZmGL2 enzyme activity, unveiling a light-dependent regulatory switch modulating very-long-chain fatty acid elongation efficiency. Our work establishes the atomic model for light-activated CRY-effector assembly and uncovers spatial competition between photoreceptor and metabolic enzyme complexes as a photoregulatory paradigm in wax biosynthesis.
GPT-4o mini: Non-social science research article
Bias-controlled multistate spintronics with giant TMR and polarity switch via localized spin states in 2D half-metals
Jialin Yang, Chuyao Chen, Shengli Zhang, Chen Pan, Bin Cheng, Feng Xu, Xi Chen, Erjun Kan, Haibo Zeng
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The relentless downscaling of integrated circuit systems imposes critical demands on spintronic technologies, particularly requiring superior storage density and efficient tunability beyond conventional magnetic-field approaches. A notable challenge persists in realizing multistate spintronic devices with electrical control at nanoscale. Here, we propose a breakthrough strategy for achieving bias-controlled giant tunneling magnetoresistance (TMR) for multistate memory applications. Our design uses two-dimensional (2D) half-metals hosting strongly localized spin states (LSSs) at the Fermi level as two ferromagnet layers in magnetic tunnel junctions (MTJs). Multiple memory states emerge from bias-driven alignment/misalignment of LSSs on two sides, generating sudden tunneling pathway changes and distinguishable TMR. First-principles quantum transport simulations on MTJs based on 2D VCl 3 and FeCl 2 reveal unprecedented bias-controlled and widely modulable TMR ratios spanning −194 to 2677% and −130 to 37,424%, respectively, accompanied by rare polarity switch capabilities. Our work opens a promising route for realizing electrical control of multistate spintronics.
GPT-4o mini: Non-social science research article
The structure of an actin nucleus stabilized by villin
Robert C. Robinson, Thitipat Chongrungreang, Khongpon Ponlachantra, Bundit Boonyarit, Geoffrey F. Dilly, Yang I. Li, Peter R. Girguis, Richard R. Copley, Adam Claridge-Chang
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Villin is an actin filament nucleating, severing, capping and bundling protein; however, the structural basis for villin’s functions and the characteristics of the actin polymerization nucleus remain poorly understood. Here, we present the structure of vent-worm villin bound to a trimeric actin nucleus. Villin wraps around and caps the barbed end of the actin trimer. Its headpiece domain interacts at the junction of two laterally associated actin protomers, leaving the pointed-end subunits open for elongation. Within the actin trimer, the two longitudinally associated subunits adopt barbed and pointed-end subunit conformations, while the lateral protomer exhibits a monomeric conformation. This provides the first view of an actin-filament nucleus, revealing that the transition into the filamentous form is stimulated and stabilized by the interactions with the pointed-end subunits. Our results also illuminate mechanisms of actin-filament dynamics and villin capping and severing, suggesting that F-to-G actin conformational transitions facilitate the later process.
GPT-4o mini: Non-social science research article
Rbfox2 selectively governs hematopoietic stem cell self-renewal by regulating proteostasis
Longfei Gao, Desmond Dickson, Huijuan Feng, Chaolin Zhang, Lei Ding
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Self-renewing hematopoietic stem cells (HSCs) generate all blood cells and give rise to long-term reconstitution of the hematopoietic system after transplantation, but the molecular mechanisms that specifically regulate HSCs remain poorly defined. Here, we found that HSCs displayed a distinct messenger RNA alternative splicing pattern and preferentially expressed Rbfox2 , an alternative splicing regulator, compared with multipotent progenitors (MPPs). Deletion of Rbfox2 from the hematopoietic compartment specifically depleted HSCs, but not progenitors in the adult bone marrow. Rbfox1 did not function redundantly with Rbfox2 in HSCs. Mechanistically, Rbfox2 loss led to proteostasis stress, including increased protein synthesis rate and accumulated misfolded/unfolded protein contents, in HSCs, but not in progenitors. Small molecules that restore proteostasis rescued HSC defects in Rbfox2 -deficient mice. Our work thus reveals that HSCs, but not progenitors, selectively rely on Rbfox2 for their self-renewal and maintenance.
GPT-4o mini: Non-social science research article
Visualizing dynamics of membrane rafts on live cells
Hsiang-Ling Chuang, Yu-Chen Fa, Kum-Yi Cheng, Er-Chien Horng, Yi-Te Chou, Richard P. Cheng, Li-Chen Wu, Ja-an Annie Ho, Chun-hsien Chen
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Membrane rafts are cellular portals to external stimuli that trigger signaling cascades for sophisticated yet remarkable biochemical activities. Visualization of the topographic evolution of membrane rafts remains unreported on live cells due to the nanosized and dynamic nature. Here, an imaging strategy involving atomic force microscopy and Hadamard product is developed to unveil membrane-raft features. Michigan Cancer Foundation-7 (MCF-7) cells were subjected to fibrinogen or manganese(II) (Mn 2+ )/resveratrol, both of which are ligands of integrin α V ÎČ 3 embedded within membrane rafts; the former promotes metastasis, and the latter enables apoptosis. MCF-7 cellular membranes responded to the two stimulants markedly different. The size, height, spatiotemporal trajectory, and persistent time of ligand-activated nanodomains are revealed. This approach opens up a visualized platform toward the understanding of activation-associated signaling cascades.
GPT-4o mini: Non-social science research article
Red blood cell–hitchhiking fluorescent probe to promote intraoperative diagnosis of human ovarian tumor
Yijing Lin, Ke Li, Yue Ding, Seok Theng Chiang, Jingzhou Xia, Haonan Wang, Huafeng Wang, Xiangzhao Ai, Weiwei Feng
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Ovarian cancer is the deadliest gynecological malignancy. The fluorescence-guided surgery technique provides a real-time visualization of the desired regions to guide the tumor resection. However, the fluorescent probes used in clinics suffer from the limited selectivity of ovarian tumors and short blood circulation half-lives. Here, we design an activatable trident-like fluorescent peptide probe (RMN) to bind with the ovarian tumor-overexpressed N-cadherin and respond to the matrix metalloproteinases (MMPs). Upon intravenous administration, the RMN initially hitchhikes on the red blood cell (RBC) surface with prolonged circulation half-lives. When arriving at the tumor regions, the peptide sequence is cleaved by the tumor-secreted MMPs to recover the fluorescent signals. The released “spears” containing N-cadherin–targeting moiety and fluorophore can specifically recognize the ovarian tumor cells, thereby facilitating the visualization of primary or metastatic tumor regions. Overall, this study highlights the potential of RBC-hitchhiking fluorescent probes in advancing the intraoperative diagnosis of human ovarian tumor tissues during the fluorescence-guided surgery process in clinics.
GPT-4o mini: Non-social science research article
Inclusion of JNK-independent drugs within multiagent chemotherapy improves response in relapsed high-risk neuroblastoma
Jeremy Z. R. Han, Monica Phimmachanh, Jordan F. Hastings, King Ho Leong, Boaz H. Ng, Jenny Ni, Angela Fontaine-Titley, Antonia L. Cadell, Yolande EI O’Donnell, Misaki Clearwater, Alvin Kamili, Michelle Haber, Murray Norris, Paul Timpson, Toby N. Trahair, Jamie I. Fletcher, Dirk Fey, Walter Kolch, Sharissa L. Latham, David R. Croucher
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The acquisition of a chemoresistant state underlies poor prognosis in many cancers, including neuroblastoma. We previously demonstrated that heterogeneity in apoptosis induction through c-Jun amino-terminal kinase (JNK) promotes a form of nongenetic chemoresistance in neuroblastoma observable at both patient and single-cell levels. As the maintenance of this JNK-impaired state in the relapse setting is a substantial barrier to the efficacy of many standard-of-care chemotherapy drugs, we combined a mechanistic, mathematical model of JNK activation with a pediatric-focused drug screen and identified approved oncology drugs capable of inducing apoptosis in a JNK-independent manner. Functional genomics further revealed that synergy between these JNK-independent drugs and standard-of-care chemotherapies emerged from differential utilization of apoptotic network components, rather than from their direct mechanistic targets. Efficacy studies with patient-derived xenograft models also confirmed that including a JNK-independent drug within existing chemotherapy backbones significantly improved response in the relapse setting, where new approaches are urgently needed.
GPT-4o mini: Non-social science research article
Gut microbial-derived indole-3-propionate improves cognitive function in Alzheimer’s disease
Ling Li, Mengzhen Jia, Cong Yang, Yihang Zhao, Jun Hu, Yu Zhao, Xinyu Hu, Fangjie Ning, Chen Ding, Qingyuan Li, Jun Gong, Xiaoran Jia, Kun Xu, Yuhao Wang, Shuang Zhou, Lu Deng, Lin Shi, Xuhui Chen, Xuebo Liu, Zhigang Liu
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Intermittent fasting (IF) offers a potential strategy to counteract Alzheimer’s disease (AD) progression. In our 16-week study on AD transgenic mice, IF positively affected cognitive function and reduced amyloid-ÎČ (AÎČ) accumulation, verifying the IF’s role in modulating neuroinflammation. Multiomics integration revealed strong links between IF-induced hippocampal gene expression, gut microbiota, and serum metabolites beneficial for cognition. Indole-3-propionic acid (IPA) emerged as a pivotal microbial metabolite. Blocking its neuronal receptor, pregnane X receptor (PXR), abolished IF’s effects. Human data paralleled these findings, showing lower IPA levels in patients with mild cognitive impairment and AD than in controls. IPA supplementation and IPA-producing Clostridium sporogenes reproduced IF’s cognitive benefits, whereas PXR blockade in neurons or disruption of IPA synthesis abrogated them. IPA crossed the blood-brain barrier, exhibited potent anti-inflammatory activity, and suppressed AÎČ accumulation, essential for neuroprotection. These results underscore microbial metabolites regulated by IF, particularly IPA, as therapeutic candidates for AD, highlighting the critical role of the gut-brain axis in neurodegeneration.
GPT-4o mini: Non-social science research article
Noncovalent interaction–driven regio- and enantioselective hydroalkynylation of unactivated alkenes to access remote chiral nitriles
Fanling Meng, Xian He, Rui He, Guodong Ju, Genping Huang, Chao Wang
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Unactivated alkenes represent a challenging substrate for selective functionalization, particularly in achieving both regioselectivity and enantioselectivity. In this study, we present a strategy for the regio- and enantioselective hydroalkynylation of unactivated alkenes through the integration of noncovalent Ï€â‹ŻÏ€ interactions between the cyano group of the substrate and a chiral bis(oxazoline) ligand. The weak Ï€â‹ŻÏ€ interaction was supported by control experiments and computational studies. The method provides a reliable approach for synthesizing chiral nitriles with remote (ÎČ-, Îł-, and ÎŽ-) stereocenters, which exhibit orthogonal reactivities and serve as valuable intermediates for further derivatization into otherwise difficult-to-access compounds. Our work provides a strategy for olefin functionalization and opens up avenues for the selective synthesis of chiral nitriles with remote stereocenters.
GPT-4o mini: Non-social science research article
The pulvinar regulates plasticity in human visual cortex
Miriam Acquafredda, Jan W. Kurzawski, Laura Biagi, Michela Tosetti, Maria Concetta Morrone, Paola Binda
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In normally sighted human adults, 2 hours of monocular deprivation is sufficient to transiently alter ocular dominance. Here, we show that this is associated with a reduction of functional connectivity between the pulvinar and primary visual cortex (V1), selective for the pulvinar-to-V1 directionality. Across participants, the strength of the pulvinar-to-V1 connectivity was negatively correlated with the ocular dominance shift, implying less plasticity in participants with stronger influence of the pulvinar over V1. Our results support a revised model of adult V1 plasticity, where short-term reorganization is gated by modulatory signals relayed by the pulvinar.
GPT-4o mini: Non-social science research article
Rigid-flexible interlocked metastructures enable conformal stealth
Chengtao Sun, Dawei Li, Wenhe Liao, Tingting Liu
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Inspired by ancient chain mail, we introduce a stealth skin constructed from topologically interlocking units that synergizes mechanical robustness with electromagnetic functionality. This architecture is lightweight, highly conformable to complex surfaces, and load-bearing without sacrificing strength. We demonstrate its application by fabricating an electromagnetic skin with an areal density of only 1.67 kg/m 2 . It achieves over 90% absorption across an ultrabroadband frequency range of 2 to 40 GHz (covering 96.3% of the band) and is insensitive to polarization and incident angle. The skin shows exceptional resilience, maintaining full functionality after 25% unit damage or 10,000 high-curvature bending cycles. When applied to a drone’s wings, this design reduces the radar cross section by over 98%. This work establishes a design strategy for a class of adaptable, multifunctional surfaces for advanced aerospace and wearable technology applications.
GPT-4o mini: Non-social science research article
Genomic evidence supports the “long chronology” for the peopling of Sahul
Francesca Gandini, Mafalda Almeida, M. George B. Foody, Nano Nagle, Anders Bergström, Anna Olivieri, SimĂŁo Rodrigues, Alessandro Fichera, Gonzalo Oteo-Garcia, Antonio Torroni, Alessandro Achilli, William Pomat, Zafarina Zainuddin, Ken Khong Eng, Tarek Shoeib, Teresa Rito, David Bulbeck, Sue O’Connor, JarosƂaw Bryk, Maria Pala, Michael J. Grant, Ceiridwen J. Edwards, Stephen J. Oppenheimer, Robert J. Mitchell, Pedro A. Soares, Helen Farr, Martin B. Richards
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The timing of the settlement of Sahul—the Pleistocene landmass formed by present-day New Guinea, Australia, and Tasmania that existed until ~9000 years ago (~9 ka)—remains highly contentious. The so-called “long chronology” posits the first main arrivals at ~60 to 65 ka, whereas a “short chronology” proposes 47 to 51 ka. Here, we exhaustively analyze an unprecedentedly large mitogenome dataset ( n  = 2456) encompassing the full range of diversity from the indigenous populations of Australia, New Guinea, and Oceania, including a lineage related to those of New Guinea in an archaeological sample from Wallacea. We assess these lineages in the context of variation from Southeast Asia and a reevaluation of the mitogenome mutation rate, alongside genome-wide and Y-chromosome variation, and archaeological and climatological evidence. In contrast to recent recombinational dating approaches, we find support for the long chronology, suggesting settlement by ~60 ka via at least two distinct routes into Sahul.
GPT-4o mini: Non-social science research article
Enantiospecific two-photon electric-dipole selection rule of chiral molecules
Fen Zou, Yong Li, Peng Zhang
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Distinguishing between enantiomers is crucial in chemistry and pharmacology. Existing optical methods rely on enantiospecific three-photon electric-dipole transitions, requiring phase locking, three-photon resonance, and precise beam control, limiting their practicality. Here, we propose an optical method that eliminates these constraints by applying a static electric field, which breaks a symmetry combining rotation and time reversal, leading to distinct two-photon selection rules for enantiomers. This enables selective excitation of a target enantiomer using two beams without phase locking or intensity control, greatly improving the feasibility of optical enantiomer differentiation.
GPT-4o mini: Non-social science research article
VTA dopaminergic neuronal activity during NREM sleep is modulated by learning and facilitates motor memory consolidation
Bibi Alika Sulaman, Eric Chen, Aaron Crane, Sangjin Lee, Gideon Rothschild, Ada Eban-Rothschild
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Memory consolidation enables animals to draw on past experiences to guide future behavior. This process involves system- and synaptic-level changes and predominantly occurs during sleep. While hippocampal-cortical circuits are well studied in this context, the contributions of other systems, including dopaminergic circuits—key players in learning-related processes—remain poorly understood. Ventral tegmental area dopaminergic (VTA DA ) neurons are active during sleep and suggested to participate in memory consolidation processes; however, causal evidence for this is lacking. Using calcium-dependent fiber photometry, electrophysiology, and chemogenetic and optogenetic manipulations across learning paradigms, we explore the functions of VTA DA neuronal activity during sleep. We show that VTA DA activity during nonrapid eye movement sleep is experience dependent, is enhanced by motor skill and associative learning, facilitates motor skill memory consolidation, and exhibits a motor learning–dependent increase in temporal coordination with cortical spindle oscillations. Our findings uncover a previously unidentified function for VTA DA neurons in consolidating memories during sleep, advancing understanding of this central neuromodulator’s functions in regulating fundamental biological processes.
GPT-4o mini: Non-social science research article
Tidal and hydrological seismicity modulations reveal pore fluid diffusion during earthquake nucleation
Zeyan Zhao, Lian Xue, Roland BĂŒrgmann, ElĂ­as R. Heimisson, Weifan Lu, Han Yue
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The occurrence of seismic events can be modulated by external periodic stress perturbations, such as daily tidal stress and annual hydrological stress. Such periodic modulations are crucial for understanding earthquake triggering, yet their underlying physical mechanisms are not fully understood. Here, we find that ordinary earthquakes (OEs) and low-frequency earthquakes (LFEs) on the Central San Andreas Fault (CSAF) are more sensitive to the long-period hydrological and the short-period tidal loadings, respectively. These different frequency-dependent modulations suggest pore fluid diffusion during the noninstantaneous earthquake nucleation and confirm different nucleation times of OEs and LFEs. We constrain the depth-varying physical properties of the CSAF and reveal that fluid content distribution and loading conditions fundamentally control slow-to-fast fault slip behaviors. Our study provides an alternative perspective to understand earthquake nucleation by using the information in periodic seismicity modulations, which can be applicable to subduction zones where similar slip behavior transitions occur.
GPT-4o mini: Non-social science research article
Distributional bias compromises leave-one-out cross-validation
George I. Austin, Itsik Pe’er, Tal Korem
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Cross-validation is a common method for evaluating machine learning models. “Leave-one-out cross-validation,” in which each data instance is used to test a model trained on all other instances, is often used in data-scarce regimes. As common metrics such as the R 2 score cannot be calculated for a single prediction, predictions are commonly aggregated across folds for performance evaluation. Here, we prove that this creates “distributional bias”: a negative correlation between the average label of each training fold and the label of its corresponding test instance. As machine learning models tend to regress to the mean of their training data, this bias tends to negatively affect performance evaluation and hyperparameter optimization. We demonstrate that distributional bias exists across diverse tasks, models, and evaluation approaches, and can bias against stronger regularization. To address it, we developed a generalizable rebalanced cross-validation that is robust to distributional bias in both classification and regression, and demonstrates improved performance in simulations, machine learning benchmarks, and several published analyses.
GPT-4o mini: Non-social science research article
Mechanoadaptive polysaccharide conjugates architect pro-healing microenvironments via dynamic stress redistribution in skin defects
Rui Zhang, Guo Zhang, Xiaoyang Liang, Zhixuan Xu, Bingran Yu, Yang Li, Fu-Jian Xu
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The tip stress concentration in linear wounds, a clinically prevalent issue yet overshadowed by circular defect studies, and chronic biotemporal discordance (static biomaterials versus dynamic tissue remodeling) remain largely underexplored, severely impeding wound healing. Here, an adhesive bioconjugate platform, HADEX, composed of two types of micrometer-sized polysaccharide-derived granules, was constructed for precise shaping and manipulation. Combining finite element modeling with a dynamically cross-linking adhesive driven by fluid convection, HADEX achieved both conformal tissue adhesion and modulation of the stress distribution within wet, linear wounds, thereby restoring tissue pretension. Furthermore, HADEX facilitated a seamless load transfer to regenerating tissue through synchronized HADEX degradation and endogenous extracellular matrix deposition. To validate the efficacy of HADEX, we demonstrated successful sutureless in vivo closure and healing of linear wounds in both the normal/diabetic rat and porcine skin incision models. The integration of computational design with biomaterials established a foundation for personalized, mechanics-informed regenerative therapies.
GPT-4o mini: Non-social science research article
Sensitive detection of structural dynamics using a statistical framework for comparative crystallography
Doeke R. Hekstra, Harrison K. Wang, Margaret A. Klureza, Jack B. Greisman, Kevin M. Dalton
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Chemical and conformational changes are crucial to protein function and its pharmacological control. X-ray crystallography can reveal these changes in atomic detail, but standard analysis methods, which refine separate datasets, often overlook differences that are subtle or arise in only a subset of molecules. Direct comparison of crystallographic datasets is, in principle, more powerful, but systematic errors (“scales”) often mask changes in the crystallographic observables (“structure factors”). Machine learning algorithms that jointly estimate scales and structure factors can address this limitation. Here, we augment this approach with multivariate, structured priors derived from crystallographic theory, implemented in the variational deep learning framework Careless. Doing so strongly improves the detection of protein dynamics, element-specific anomalous signals, and the binding of drug candidates, offering a robust approach to comparative crystallography and, potentially, to detection of protein dynamics by other structure determination methods.
GPT-4o mini: Non-social science research article
Soft 3D electromagnetic structures with rapid, complex shape morphing
Jeonhyeong Park, Qifeng Lu, Ben Jeffery, Heling Wang, Xinchen Ni
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Soft 3D systems capable of dynamic, real-time shape morphing have broad applications in flexible electronics, biomedical devices, and soft robotics. Existing methods typically rely on stress relaxation in prestretched elastomeric substrates to transform 2D precursors into 3D structures. However, these structures lack the ability for further localized programmability after transformation. This work introduces a class of soft, 3D morphable electromagnetic structures that enable fast, reversible shape transformations, with precise local programmability even after the initial 3D transformation. These systems provide access to sophisticated geometries and motions that were previously unattainable. This approach combines controlled compressive buckling of liquid metal microfluidics and Lorentz force actuation to drive the transformation, guided by multiphysics computational modeling. A 4D electronic system serves as an application example, demonstrating the potential of these spatially and temporally programmable soft systems.
GPT-4o mini: Non-social science research article
Complementary roles of dorsal and ventral hippocampus in the flexible adaptation of goal-directed behavior
Maryam Hasantash, Yifei Li, Arturo Torres-Herraez, Christoph Kellendonk, Christoph Anacker
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The ability to adapt previously learned behaviors is crucial for survival in dynamically changing environments. The hippocampus has been implicated in associative learning, but how hippocampus activity along its septotemporal axis contributes to flexible adaptation is unknown. Using in vivo Ca 2+ recordings and functional inhibition of dorsal CA1 (dCA1) and ventral CA1 (vCA1) neurons in mice during complementary cognitive flexibility tasks, we find that dCA1 is engaged and functionally required during consolidation of a learned contingency both before and after a rule change, whereas vCA1 is uniquely recruited during, and necessary for, early adaptation to a new contingency. This vCA1-dependent adaptation relies on a perseverative error signal, which is encoded in vCA1 and required for behavior updating. These results highlight a previously unknown division of labor within the hippocampus, in which vCA1 enables flexible adaptation when mismatches in expected and actual outcomes are detected, whereas dCA1 stabilizes newly learned information.
GPT-4o mini: Non-social science research article
Virus-induced APOBEC3 transmutagenesis in bladder cancer initiation
George H. Hatton, Sally R. James, Andrew S. Mason, Richard T. Gawne, Helena Vogel, Karen Hogg, Parisa Boukani, Gemma Swinscoe, Anjum Khan, Matthew Welberry Smith, Michael A. Carpenter, Omar Masood, Iñigo Martincorena, Andrew Macdonald, Reuben S. Harris, Gabriel J. Starrett, Jennifer Southgate, Simon C. Baker
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Carcinogenesis in human urothelium is driven by a high burden of mutations caused by the antiviral “APOBEC3” (apolipoprotein B mRNA editing enzyme, catalytic subunit–like 3) cytosine deaminase enzymes; however, there is no established viral etiology. BK polyomavirus (BKPyV) is a ubiquitous childhood infection that persists in the kidney during adulthood and is frequently detected in urine. Chronic BKPyV infections of normal human urothelium induced an innate response, including apical extrusion of infected cells. Local paracrine interferon signaling induced APOBEC3 expression in both infected and juxtaposed bystander cells, leading to acquisition of hallmark APOBEC3-mediated mutational signatures that recapitulated the variation in mutational character found in patients with muscle-invasive bladder cancer. In our model for urothelial carcinogenesis, uninfected bystander cells witnessing BKPyV infection become APOBEC3 damaged, escape extrusion, and acquire hypermutable advantage. “Transmutagenesis” explains how cells proximal to infected neighbors acquire cancer-initiating mutations. This hypothesis for how urothelial cancers can develop as APOBEC3 signature rich, while remaining virus-negative, suggests that a large proportion of urothelial carcinomas may be preventable by antiviral intervention.
GPT-4o mini: Non-social science research article
QUIRKY controls seed germination via precision degradation of ABI5
Yupeng Jiang, Yunke Zhu, Meiqi Shi, Qiying Ge, Lijie Xuan, Lu Liu
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Seed dormancy and germination are dynamically regulated by abscisic acid (ABA), with transcription factor ABA INSENSITIVE 5 (ABI5) serving as a key repressor of germination under stress. Here, we identify QUIRKY (QKY), a MULTIPLE C2 DOMAIN AND TRANSMEMBRANE REGION PROTEIN (MCTP) in Arabidopsis , as a critical regulator of ABA signaling through posttranslational control of ABI5. QKY interacts with ABI5 and facilitates its cytoplasmic degradation via the E3 ubiquitin ligase KEEP ON GOING (KEG), promoting the recruitment of ABI5 into phase-separated condensates. Loss of QKY function enhances ABA hypersensitivity, reducing seed germination rates and impairing seedling establishment. These findings highlight QKY as a scaffold that integrates phase separation and targeted ubiquitination to fine-tune ABA responses, balancing dormancy and germination. Our study expands the understanding of posttranslational ABI5 regulation and reveals MCTPs as central players in coordinating growth-stress trade-offs during early plant development.
GPT-4o mini: Non-social science research article
Drosophila and mouse intestinal stem cells are spatiotemporally specified by Notch suppression and Wnt activation
You Wu, Lingxiao Yu, Yuxin Yu, Song Wu, Qili Yuan, Weicheng Duan, Sicheng Cai, Bo Xiong, Rong Lin, Zheng Guo
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The specification of intestinal stem cells (ISCs) during development is critical for maintaining intestinal homeostasis. However, the mechanisms underlying this process remain elusive. Here, by counting and tracing ISC in Drosophila pupal midgut, we show that ISCs are specified within a narrow 12-hour developmental window, with ~150 ISCs emerging from a pool of ~6000 intestinal epithelial cells. Single-cell sequencing revealed the involvement of Notch and Wnt signaling, with genetic experiments demonstrating that ISC specification requires both Notch suppression and Wnt activation. Furthermore, we showed that Wnt signaling is activated in discrete spatial domains, and Notch-mediated lateral inhibition specifies ISCs in these Wnt-active zones, achieving a ratio of ~1/40. Notably, Notch suppression also promoted the specification of Lgr5 + progenitors in the mouse embryonic intestine. Together, our data show that Wnt activation defines niches permissive for ISC fate, whereas Notch suppression licenses fate commitment, a spatiotemporal coordination conserved from insects to mammals.
GPT-4o mini: Non-social science research article
High variability in flood discharge and stage accelerates river mobility
Chenliang Wu, Wonsuck Kim, Shuo Yang, Frank T.-C. Tsai, Jeffrey A. Nittrouer, Tian Y. Dong, Duhwan Keum, Kyle M. Straub
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Lateral channel migration is a fundamental process in natural alluvial rivers; however, the factors that control the rate of migration remain unclear. Despite its importance in shaping river morphology, the impact of water discharge on river mobility is still largely unexplored. Here, we leverage a dataset of 64 rivers across the globe to show that higher variability in river discharge and stage promotes higher rates of river migration. To reveal the physical processes behind this relationship, we focused analyses on the lowermost 500 kilometers of the Mississippi River, where a pronounced gradient in water stage variability and migration rate exists. We demonstrate that stage variability affects channel mobility by influencing the sediment size of riverbanks and thereby controlling riverbank erodibility. These results can be used to predict river responses to climate change and decipher past hydroclimates using stratigraphy from Earth and Mars.
GPT-4o mini: Non-social science research article
Cortical dopaminergic signaling mediates planning of directional movements
John Chen, Alfredo Fontanini
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The anterior-lateral motor cortex (ALM) has been extensively studied as a model for understanding the cortical mechanisms involved in planning directional movements. ALM neurons show preparatory activity that predict whether the mouse will produce a left- or right-directed lick. While the neural mechanisms underlying ALM dynamics and their links to behavior are beginning to be elucidated, the sources of this directional activity remain unclear. Here, we examined the role of ALM dopaminergic circuits in mice performing a directional licking task. We report that dopamine (DA) signals and the activity of neurons expressing D1 receptors (D1R + ) tracked the preparation and execution of licking and demonstrated a bias for planning of licks aimed at the direction contralateral to the recording site. Unilateral optogenetic manipulations of D1R + neurons or DA afferents affected lateral licking in a way consistent with their role in planning contralateral movements. Together, these results show that cortical DA modulation plays an important role in the motor preparation of directional movements.
GPT-4o mini: Non-social science research article
Aerobatic maneuvers in insect-scale flapping-wing aerial robots via deep-learned robust tube model predictive control
Yi-Hsuan Hsiao, Andrea Tagliabue, Owen Matteson, Suhan Kim, Tong Zhao, Jonathan P. How, YuFeng Chen
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Aerial insects exhibit agile maneuvers such as sharp braking, saccades, and body flips under disturbances; in contrast, insect-scale aerial robots are limited to tracking smooth trajectories with small acceleration. To achieve similar flight capabilities, insect-scale robots require a robust and computationally efficient controller. Here, through designing a deep-learned robust tube model predictive controller, we showcase exceptional flight agility in a 750-milligram flapping-wing robot. Our neural network controller can track aggressive trajectories and run at a high rate on a compute-constrained system. The robot demonstrates saccades with a lateral speed and acceleration of 197 centimeters per second and 11.7 meters per square second, respectively, representing improvements of 447 and 255% over prior results. The robot also performs saccades under 160–centimeters per second wind disturbance and completes 10 consecutive somersaults in 11 seconds. These results represent a milestone in achieving insect-scale flight agility and inspire future investigations on sensory and compute autonomy.
Climate stability and low population pressure predict peaceful interactions over 10,000 years of Central Andean history
Weston C. McCool, Kurt M. Wilson, Elizabeth N. Arkush, Daniel A. Contreras, Brian F. Codding
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As anthropogenic climate change threatens to destabilize global societies and ecosystems, anticipating likely human responses becomes ever more urgent. A key global initiative is the promotion of peaceful relations. Nonetheless, studies that systematically evaluate factors that promote peace are limited, and research focuses on recent centuries when climate conditions were stable. Here, we couple evolutionary ecology theory with machine learning models to investigate the relative effects of climatological, demographic, and socio-political conditions on the persistence of peace over the 10,000-year Central Andean Holocene sequence. We find that stable climate conditions and low population density have a strong influence on peace, even when average climate conditions are not ideal for farming. Given that climate projection models predict increasing climate volatility in coming decades, our results suggest that future climate instability may weaken peaceful interactions, particularly among subsistence populations in marginal environments.

Socio-Economic Review

More than usage: expanding socioeconomic inequality in access to remote work after COVID-19 in Japan
Ryota Mugiyama, Kyoko Komatsu
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Since the COVID-19 outbreak, there has been renewed interest in remote work. While socioeconomic gap in remote work usage is well-studied, little is known about a key underlying aspect of inequality: access to remote work. Using Japanese panel data from January 2020 to 2024, this study examines the evolution of class and education gaps in access, distinguishing between active use (“access and use”) and potential use (“access but non-use”) among access. Results show that higher-class and more-educated workers experienced a greater increase in “access and use,” a trend that peaked mid-pandemic. In addition, while the class gap in “access but non-use” grew steadily, the education gap did not. While task differences partially explain the increased class gap in “access and use,” they do not explain the remaining education or class gaps. The findings suggest that formal access has become an institutionalized workplace policy and an established benefit for advantaged workers.
The gender gap in fair earnings: the effect of male and female supervisors
Jule Adriaans, Carsten Sauer, Anja Kirsch, Katharina Wrohlich
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Research has consistently shown that lower earnings for women and higher earnings for men are generally regarded as fair by both women and men. Previous research has focused on structural factors to explain this phenomenon, but has neglected proximate relationships at work. This study examines how the supervisors’ gender relates to employees’ justice attitudes toward the earnings of men and women. We draw on data from two waves of a German employee panel study, conducted in 2012/2013 and 2017, to show that employees perceived higher earnings for men compared to women as fair. Exploiting our longitudinal research design, we find a change in gender bias in the justice evaluation of earnings for employees who experienced a change in supervisor gender: switching from a male to a female supervisor reduced the gender bias. This finding demonstrates that the workplace is an essential site for altering gendered beliefs about the fairness of earnings.
Market regimes: a validation of their existence and an exploration of their emergence
Özgecan Koçak
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Economic anthropologists and sociologists have observed distinct market regimes—sociocultural systems of exchange characterized by specific devices, organizing logics, and social relationships. This article confirms that different market regimes can emerge within the same institutional setting and proposes a theoretical framework explaining their origins. Analyzing eBay auction data, I identify six market clusters (standard, collectible, standard collectible, antique collectible, art, and marginal) that differ in type and level of uncertainty. Sellers use devices like labels, quality conventions, and categories at varying rates and device use correlates differently with auction success across clusters, verifying emergence of distinct regimes on the same platform. I propose that regimes emerge as participants respond to social rewards and market incentives by investing in public and private devices. Self-perpetuating dynamics create distinct regime types characterized by different social structures (communitarian/hierarchical), relationships (supporting collective identities/status rankings), and symbolic values of products (emphasizing categorical conformity/quality differentiation).