Your search keyword '"Institute for Advanced Study"' showing total 441 results

1. The unusual rainbow trout sex determination gene hijacked the canonical vertebrate gonadal differentiation pathway

Author

Eric Pailhoux, Barbara Nicol, Maëlle Pannetier, Misako Miwa, Amaury Herpin, Manfred Schartl, Yann Guiguen, Adèle Branthonne, Elodie Jouanno, Ayaka Yano, Sylvain Bertho, Goro Yoshizaki, Thomas Müller, Laboratoire de Physiologie et Génomique des Poissons (LPGP), Institut National de la Recherche Agronomique (INRA)-Structure Fédérative de Recherche en Biologie et Santé de Rennes ( Biosit : Biologie - Santé - Innovation Technologique ), Physiological Chemistry, Biocenter, Julius-Maximilians-Universität Würzburg [Wurtzbourg, Allemagne] (JMU), Reproductive and Developmental Biology Laboratory, National Institute of Environmental Health Sciences [Durham] (NIEHS-NIH), National Institutes of Health [Bethesda] (NIH)-National Institutes of Health [Bethesda] (NIH), Julius-von-Sachs-Institute, Department of Molecular Plant Physiology and Biophysics, University of Würzburg, Biologie du développement et reproduction (BDR), École nationale vétérinaire d'Alfort (ENVA)-Institut National de la Recherche Agronomique (INRA)-Centre National de la Recherche Scientifique (CNRS), Department of Marine Biosciences, Tokyo University of Marine Science and Technology (TUMSAT), University Hospital, Comprehensive Cancer Center Mainfranken, Hagler Institute for Advanced Study, Texas A&M University [College Station], Department of Biology, University of Minho, This work was supported by Agence Nationale de la Recherche (ANR) Grant ANR-11-BSV7- 0016 (SDS project) and grants from the Deutsche Forschungsgemeinschaft (Scha408/12-1, 10-1, to M.S.), Biologie du Développement et Reproduction (BDR), École nationale vétérinaire d'Alfort (ENVA)-Institut National de la Recherche Agronomique (INRA), and ANR-11-BSV7-0016,SDS,Rôle et évolution d'un possible déterminant majeur du sexe chez les Salmonidés.(2011)

Subjects

0301 basic medicine, Forkhead Box Protein L2, Male, réseau de régulation de géne, Sex Differentiation, [SDV]Life Sciences [q-bio], gène déterminant majeur du sexe, sex determination, sexual differentiation, Translocation, Genetic, 0302 clinical medicine, poisson, Transcription (biology), salmonids, Gene duplication, Testis, Gene Regulatory Networks, Aromatase, Promoter Regions, Genetic, différenciation gonadique, Genetics, salmonidae, trout, détermination du sexe, Multidisciplinary, Vertebrate, Cell Differentiation, Biological Sciences, gène sdY, Oncorhynchus mykiss, Female, transcription, différenciation sexuelle, expression des gènes, Biology, reproduction, 03 medical and health sciences, Forkhead Transcription Factors, rainbow, biology.animal, evolution, Animals, Gonads, Gene, Transcription factor, fish, Cell Nucleus, Sexual differentiation, Forkhead box proteins, immunisation génétique, Estrogens, Sex Determination Processes, vertébré, 030104 developmental biology, biology.protein, vertebrates, 030217 neurology & neurosurgery, truite arc en ciel

Abstract

Evolutionary novelties require rewiring of transcriptional networks and/or the evolution of new gene functions. Sex determination (SD), one of the most plastic evolutionary processes, requires such novelties. Studies on the evolution of vertebrate SD revealed that new master SD genes are generally recruited from genes involved in the downstream SD regulatory genetic network. Only a single exception to this rule is currently known in vertebrates: the intriguing case of the salmonid master SD gene (sdY), which arose from duplication of an immune-related gene. This exception immediately posed the question of how a gene outside from the classical sex differentiation cascade could acquire its function as a male SD gene. Here we show that SdY became integrated in the classical vertebrate sex differentiation cascade by interacting with the Forkhead box domain of the female-determining transcription factor, Foxl2. In the presence of Foxl2, SdY is translocated to the nucleus where the SdY:Foxl2 complex prevents activation of the aromatase (cyp19a1a) promoter in cooperation with Nr5a1 (Sf1). Hence, by blocking a positive loop of regulation needed for the synthesis of estrogens in the early differentiating gonad, SdY disrupts a preset female differentiation pathway, consequently allowing testicular differentiation to proceed. These results also suggest that the evolution of unusual vertebrate master sex determination genes recruited from outside the classical pathway like sdY is strongly constrained by their ability to interact with the canonical gonadal differentiation pathway.

Published

2018

2. SPATEs promote the survival of Shigella to the plasma complement system upon local hemorrhage and bacteremia.

Author

Debande L, Sabbah A, Kuhn L, Ngondo RP, Maucotel J, Valente-Barroso M, André AC, Roche B, Laborde M, Cantalapiedra-Mateo MV, Thahouly T, Milinski A, Bianchetti L, Allmang C, Frugier M, and Marteyn BS

Subjects

Animals, Guinea Pigs, Complement System Proteins metabolism, Complement System Proteins immunology, Shigella pathogenicity, Humans, Bacterial Proteins metabolism, Disease Models, Animal, Serine Proteases metabolism, Virulence, Bacteremia microbiology, Bacteremia immunology, Dysentery, Bacillary microbiology, Dysentery, Bacillary immunology

Abstract

Shigella spp. are the causative agents of shigellosis, which remains a leading cause of death in children under the age of 5. Symptoms of shigellosis include bloody diarrhea, associated to colon hemorrhage; in more severe cases , Shigella bacteremia is induced. These clinical features indicate that Shigella are exposed and survive exposure to plasma, locally and systemically, although this has not yet been studied at a molecular level. In this report, we confirmed in a guinea pig model of shigellosis that both S. flexneri 5a and S. sonnei induced local hemorrhages and we demonstrated that Shigella reached CD31+/CD34+ blood vessels located in the mucosa during the late stages of infection, and further disseminated in the bloodstream. These results confirmed the exposure of Shigella to plasma components during its virulence cycle. We demonstrated that all the tested Shigella strains survived plasma exposure in vitro, and we showed that Serine Protease Autotransporters of Enterobacteriaceae (SPATEs) contribute to Shigella dissemination within the colonic mucosa and in the bloodstream. We have confirmed that SPATEs are expressed and secreted in poorly oxygenated environments encountered by Shigella during late infection stages. We further demonstrated that SPATEs promoted Shigella survival in plasma, by cleaving complement component 3 (C3), thereby impairing the complement system activation. We have shown here that the ability of Shigella to survive plasma exposure is a key factor in its virulence, both within primary foci and systemically., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

3. COX15 deficiency causes oocyte ferroptosis.

Author

Zhang Z, Yu R, Shi Q, Wu ZJ, Li Q, Mu J, Chen B, Shi J, Ni R, Wu L, Li Q, Fu J, Li R, Sun X, Wang J, He L, Kuang Y, Sang Q, and Wang L

Subjects

Humans, Female, Infertility, Female genetics, Infertility, Female metabolism, Infertility, Female pathology, HeLa Cells, Reactive Oxygen Species metabolism, Mitochondrial Proteins genetics, Mitochondrial Proteins metabolism, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae metabolism, Adult, Exome Sequencing, Oocytes metabolism, Ferroptosis genetics, Mitochondria metabolism, Mitochondria genetics

Abstract

Mitochondria play diverse roles in mammalian physiology. The architecture, activity, and physiological functions of mitochondria in oocytes are largely different from those in somatic cells, but the mitochondrial proteins related to oocyte quality and reproductive longevity remain largely unknown. Here, using whole-exome sequencing data from 1,024 women (characterized by oocyte maturation arrest and degenerated or morphologically abnormal oocytes) and 2,868 healthy controls, we performed a population and gene-based burden test for mitochondrial genes and identified a candidate gene, cytochrome c oxidase assembly protein 15 ( COX15). We report that biallelic COX15 pathogenic variants cause human oocyte ferroptosis and female infertility in a recessive inheritance pattern. COX15 variants impaired mitochondrial respiration in Saccharomyces cerevisiae and led to reduced protein levels in HeLa cells. Oocyte-specific deletion of Cox15 led to impaired Fe 2+ and reactive oxygen species homeostasis that caused mitochondrial dysfunction and ultimately sensitized oocytes to ferroptosis. In addition, ferrostatin-1 (an inhibitor of ferroptosis) could rescue the oocyte ferroptosis phenotype in vitro and ex vivo. Our findings not only provide a genetic diagnostic marker for oocyte development defects but also expand the spectrum of mitochondrial disorders to female infertility and contribute to unique insights into the role of ferroptosis in human oocyte defects., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

4. Is stochastic thermodynamics the key to understanding the energy costs of computation?

Author

Wolpert DH, Korbel J, Lynn CW, Tasnim F, Grochow JA, Kardeş G, Aimone JB, Balasubramanian V, De Giuli E, Doty D, Freitas N, Marsili M, Ouldridge TE, Richa AW, Riechers P, Roldán É, Rubenstein B, Toroczkai Z, and Paradiso J

Abstract

The relationship between the thermodynamic and computational properties of physical systems has been a major theoretical interest since at least the 19th century. It has also become of increasing practical importance over the last half-century as the energetic cost of digital devices has exploded. Importantly, real-world computers obey multiple physical constraints on how they work, which affects their thermodynamic properties. Moreover, many of these constraints apply to both naturally occurring computers, like brains or Eukaryotic cells, and digital systems. Most obviously, all such systems must finish their computation quickly, using as few degrees of freedom as possible. This means that they operate far from thermal equilibrium. Furthermore, many computers, both digital and biological, are modular, hierarchical systems with strong constraints on the connectivity among their subsystems. Yet another example is that to simplify their design, digital computers are required to be periodic processes governed by a global clock. None of these constraints were considered in 20th-century analyses of the thermodynamics of computation. The new field of stochastic thermodynamics provides formal tools for analyzing systems subject to all of these constraints. We argue here that these tools may help us understand at a far deeper level just how the fundamental thermodynamic properties of physical systems are related to the computation they perform., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

5. Photovoltaic-driven dual-oxidation seawater electrolyzer for sustainable lithium recovery.

Author

Gu X, Feng X, Yang S, Wang R, Zeng Q, Shangguan Y, Liang J, Zhou H, Li Z, Lin Z, Zheng C, Xu Z, and Chen H

Abstract

The insatiable demand for lithium in portable energy storage necessitates a sustainable and low-carbon approach to its recovery. Conventional hydrometallurgical and pyrometallurgical methods heavily involve hazardous chemicals and significant CO 2 emissions. Herein, by integrating electrode oxidation with electrolyte oxidation, we establish a photovoltaic-driven "dual-oxidation" seawater electrolyzer system for low-carbon footprint and high lithium recovery. A 98.96% lithium leaching rate with 99.60% product purity was demonstrated for lithium recovery from spent LiFePO 4 cathode materials. In-depth mechanism studies reveal that the electric field-driven electrode oxidation and in situ generated oxidative electrolyte synergetically contributes to lithium ions leaching via a structural framework elements oxidation and particle corrosion splitting synergy. This dual-oxidation mechanism facilitates rapid and efficient lithium extraction with broad universality, offering significant economic and environmental benefits. Our work showcases a promising strategy for integrating dual oxidation within a photovoltaic-driven seawater electrolyzer, paving the way for low-carbon lithium recovery from diverse solid wastes and minerals within a sustainable circular economy., Competing Interests: Competing interests statement:A provisional patent based on this work has been filed by H.C. and X.G.

Published

2024

6. Correlated topological flat bands in rhombohedral graphite.

Author

Zhang H, Li Q, Scheer MG, Wang R, Tuo C, Zou N, Chen W, Li J, Cai X, Bao C, Li MR, Deng K, Watanabe K, Taniguchi T, Ye M, Tang P, Xu Y, Yu P, Avila J, Dudin P, Denlinger JD, Yao H, Lian B, Duan W, and Zhou S

Abstract

Flat bands and nontrivial topological physics are two important topics of condensed matter physics. With a unique stacking configuration analogous to the Su-Schrieffer-Heeger model, rhombohedral graphite (RG) is a potential candidate for realizing both flat bands and nontrivial topological physics. Here, we report experimental evidence of topological flat bands (TFBs) on the surface of bulk RG, which are topologically protected by bulk helical Dirac nodal lines via the bulk-boundary correspondence. Moreover, upon in situ electron doping, the surface TFBs show a splitting with exotic doping evolution, with an order-of-magnitude increase in the bandwidth of the lower split band, and pinning of the upper band near the Fermi level. These experimental observations together with Hartree-Fock calculations suggest that correlation effects are important in this system. Our results demonstrate RG as a platform for investigating the rich interplay between nontrivial band topology, correlation effects, and interaction-driven symmetry-broken states., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

7. The origin of methyl group in methanogen-mediated mercury methylation: From the Wolfe cycle.

Author

Gao J, Yang J, Dong H, Tao S, Shi J, He B, Bian X, Wu JL, Yin Y, Hu L, and Jiang G

Subjects

Methylation, Proteomics methods, Methylmercury Compounds metabolism, Methane metabolism, Mercury metabolism, Methanospirillum metabolism, Methanospirillum genetics

Abstract

Methylmercury (MeHg) is a bioaccumulating neurotoxin mainly produced by anaerobic microorganisms, with methanogen being one of the important methylators. A critical aspect for understanding the mechanism for microbial mercury (Hg) methylation is the origin of the methyl group. However, the origin of methyl group in methanogen-mediated Hg methylation remains unclear. This study aims to identify the source of methyl group for MeHg synthesis in methanogens. Our study revealed that Hg methylation in Methanospirillum hungatei JF-1 is closely related to methanogenesis process, according to the results of proteomic study and substrate limitation study. Next, we proved that nearly all methyl group in MeHg derives from the Wolfe cycle in this species, rather than the previously demonstrated acetyl-coenzyme A pathway, based on the results of 13 C labeling study. We then proposed the Wolfe cycle-dependent Hg methylation mechanism in this species. Further genome analyses and 13 C labeling experiments indicated that the involvement of the Wolfe cycle in Hg methylation is probably a universal feature among Hg-methylating methanogens. These findings reveal a unique Hg methylation mechanism in methanogens. Our study broadens the carbon substrates and controlling factors for MeHg synthesis in the environment, which can inform the prediction of MeHg production potential and remediation strategies for MeHg contamination., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

8. Decoding the molecular mechanism of selective autophagy of glycogen mediated by autophagy receptor STBD1.

Author

Zhang Y, Sun Y, Shi J, Xu P, Wang Y, Liu J, Gong X, Wang Y, Tang Y, Liu H, Zhou X, Lin Z, Baba O, Morita T, Yu B, and Pan L

Subjects

Animals, Humans, Adaptor Proteins, Signal Transducing metabolism, Adaptor Proteins, Signal Transducing chemistry, Adaptor Proteins, Signal Transducing genetics, Binding Sites, Crystallography, X-Ray, Microtubule-Associated Proteins metabolism, Microtubule-Associated Proteins chemistry, Microtubule-Associated Proteins genetics, Models, Molecular, Protein Binding, Autophagy physiology, Autophagy-Related Protein 8 Family metabolism, Autophagy-Related Protein 8 Family genetics, Autophagy-Related Protein 8 Family chemistry, Glycogen metabolism

Abstract

Autophagy of glycogen (glycophagy) is crucial for the maintenance of cellular glucose homeostasis and physiology in mammals. STBD1 can serve as an autophagy receptor to mediate glycophagy by specifically recognizing glycogen and relevant key autophagic factors, but with poorly understood mechanisms. Here, we systematically characterize the interactions of STBD1 with glycogen and related saccharides, and determine the crystal structure of the STBD1 CBM20 domain with maltotetraose, uncovering a unique binding mode involving two different oligosaccharide-binding sites adopted by STBD1 CBM20 for recognizing glycogen. In addition, we demonstrate that the LC3-interacting region (LIR) motif of STBD1 can selectively bind to six mammalian ATG8 family members. We elucidate the detailed molecular mechanism underlying the selective interactions of STBD1 with ATG8 family proteins by solving the STBD1 LIR/GABARAPL1 complex structure. Importantly, our cell-based assays reveal that both the STBD1 LIR/GABARAPL1 interaction and the intact two oligosaccharide binding sites of STBD1 CBM20 are essential for the effective association of STBD1, GABARAPL1, and glycogen in cells. Finally, through mass spectrometry, biochemical, and structural modeling analyses, we unveil that STBD1 can directly bind to the Claw domain of RB1CC1 through its LIR, thereby recruiting the key autophagy initiation factor RB1CC1. In all, our findings provide mechanistic insights into the recognitions of glycogen, ATG8 family proteins, and RB1CC1 by STBD1 and shed light on the potential working mechanism of STBD1-mediated glycophagy., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

9. The role of emerging elites in the formation and development of communities after the fall of the Roman Empire.

Author

Tian Y, Koncz I, Defant S, Giostra C, Vyas DN, Sołtysiak A, Pejrani Baricco L, Fetner R, Posth C, Brandt G, Bedini E, Modi A, Lari M, Vai S, Francalacci P, Fernandes R, Steinhof A, Pohl W, Caramelli D, Krause J, Izdebski A, Geary PJ, and Veeramah KR

Subjects

Humans, Italy, History, Medieval, Human Migration history, History, Ancient, Archaeology, Roman World history

Abstract

Elites played a pivotal role in the formation of post-Roman Europe on both macro- and microlevels during the Early Medieval period. History and archaeology have long focused on their description and identification based on written sources or through their archaeological record. We provide a different perspective on this topic by integrating paleogenomic, archaeological, and isotopic data to gain insights into the role of one such elite group in a Langobard period community near Collegno, Italy dated to the 6-8th centuries CE. Our analysis of 28 newly sequenced genomes together with 24 previously published ones combined with isotope (Sr, C, N) measurements revealed that this community was established by and organized around a network of biologically and socially related individuals likely composed of multiple elite families that over time developed into a single extended pedigree. The community also included individuals with diverse genetic ancestries, maintaining its diversity by integrating newcomers and groups in later stages of its existence. This study highlights how shifts in political power and migration impacted the formation and development of a small rural community within a key region of the former Western Roman Empire after its dissolution and the emergence of a new kingdom. Furthermore, it suggests that Early Medieval elites had the capacity to incorporate individuals from varied backgrounds and that these elites were the result of (political) agency rather than belonging to biologically homogeneous groups., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

10. Global preventive feedback of powerful radio jets on galaxy formation.

Author

Cen R

Abstract

Firmly anchored on observational data, giant radio lobes from massive galaxies hosting supermassive black holes can exert a major negative feedback effect, by endowing the intergalactic gas with significant magnetic pressure hence retarding or preventing gas accretion onto less massive halos in the vicinity. Since massive galaxies that are largely responsible for producing the giant radio lobes, this effect is expected to be stronger in more overdense large-scale environments, such as protoclusters, than in underdense regions, such as voids. We show that by redshift [Formula: see text] halos with masses up to [Formula: see text] are significantly hindered from accreting gas due to this effect for radio bubble volume filling fraction of [Formula: see text], respectively. Since the vast majority of the stars in the universe at [Formula: see text][Formula: see text] 2 to 3 form precisely in those halos, this negative feedback process is likely one major culprit for causing the global downturn in star formation in the universe. It also provides a natural explanation for the rather sudden flattening of the slope of the galaxy rest-frame UV luminosity function around [Formula: see text]. A cross-correlation between protoclusters and Faraday rotation measures may test the predicted magnetic field. Inclusion of this external feedback process in the next generation of cosmological simulations may be imperative., Competing Interests: Competing interests statement:The author declares no competing interest.

Published

2024

11. Binding adaptability of chemical ligands to polymorphic α-synuclein amyloid fibrils.

Author

Liu K, Tao Y, Zhao Q, Xia W, Li X, Zhang S, Yao Y, Xiang H, Han C, Tan L, Sun B, Li D, Li A, and Liu C

Subjects

Ligands, Humans, Binding Sites, Protein Binding, Parkinson Disease metabolism, Mutation, alpha-Synuclein metabolism, alpha-Synuclein chemistry, Amyloid metabolism, Amyloid chemistry, Cryoelectron Microscopy

Abstract

α-synuclein (α-syn) assembles into structurally distinct fibril polymorphs seen in different synucleinopathies, such as Parkinson's disease and multiple system atrophy. Targeting these unique fibril structures using chemical ligands holds diagnostic significance for different disease subtypes. However, the molecular mechanisms governing small molecules interacting with different fibril polymorphs remain unclear. Here, we investigated the interactions of small molecules belonging to four distinct scaffolds, with different α-syn fibril polymorphs. Using cryo-electron microscopy, we determined the structures of these molecules when bound to the fibrils formed by E46K mutant α-syn and compared them to those bound with wild-type α-syn fibrils. Notably, we observed that these ligands exhibit remarkable binding adaptability, as they engage distinct binding sites across different fibril polymorphs. While the molecular scaffold primarily steered the binding locations and geometries on specific sites, the conjugated functional groups further refined this adaptable binding by fine-tuning the geometries and binding sites. Overall, our finding elucidates the adaptability of small molecules binding to different fibril structures, which sheds light on the diagnostic tracer and drug developments tailored to specific pathological fibril polymorphs., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

12. Large language models for depression prediction.

Author

Wang Y

Subjects

Humans, Depression psychology, Language

Abstract

Competing Interests: Competing interests statement:The author declares no competing interest.

Published

2024

13. Stearoylation cycle regulates the cell surface distribution of the PCP protein Vangl2.

Author

Ying J, Yang Y, Zhang X, Dong Z, and Chen B

Subjects

Humans, Cell Movement, Thiolester Hydrolases metabolism, Thiolester Hydrolases genetics, Acyltransferases metabolism, Acyltransferases genetics, Animals, Signal Transduction, Protein Processing, Post-Translational, Intracellular Signaling Peptides and Proteins, Membrane Proteins metabolism, Membrane Proteins genetics, Cell Polarity physiology, Cell Membrane metabolism

Abstract

Defects in planar cell polarity (PCP) have been implicated in diverse human pathologies. Vangl2 is one of the core PCP components crucial for PCP signaling. Dysregulation of Vangl2 has been associated with severe neural tube defects and cancers. However, how Vangl2 protein is regulated at the posttranslational level has not been well understood. Using chemical reporters of fatty acylation and biochemical validation, here we present that Vangl2 subcellular localization is regulated by a reversible S-stearoylation cycle. The dynamic process is mainly regulated by acyltransferase ZDHHC9 and deacylase acyl-protein thioesterase 1 (APT1). The stearoylation-deficient mutant of Vangl2 shows decreased plasma membrane localization, resulting in disruption of PCP establishment during cell migration. Genetically or pharmacologically inhibiting ZDHHC9 phenocopies the effects of the stearoylation loss of Vangl2. In addition, loss of Vangl2 stearoylation enhances the activation of oncogenic Yes-associated protein 1 (YAP), serine-threonine kinase AKT, and extracellular signal-regulated protein kinase (ERK) signaling and promotes breast cancer cell growth and HRas G12V mutant (HRas V12 )-induced oncogenic transformation. Our results reveal a regulation mechanism of Vangl2, and provide mechanistic insight into how fatty acid metabolism and protein fatty acylation regulate PCP signaling and tumorigenesis by core PCP protein lipidation., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

14. 52,000 years of woolly rhinoceros population dynamics reveal extinction mechanisms.

Author

Fordham DA, Brown SC, Canteri E, Austin JJ, Lomolino MV, Haythorne S, Armstrong E, Bocherens H, Manica A, Rey-Iglesia A, Rahbek C, Nogués-Bravo D, and Lorenzen ED

Subjects

Animals, Ecosystem, DNA, Ancient analysis, Paleontology, Extinction, Biological, Perissodactyla, Population Dynamics, Fossils

Abstract

The extinction of the woolly rhinoceros ( Coelodonta antiquitatis ) at the onset of the Holocene remains an enigma, with conflicting evidence regarding its cause and spatiotemporal dynamics. This partly reflects challenges in determining demographic responses of late Quaternary megafauna to climatic and anthropogenic causal drivers with available genetic and paleontological techniques. Here, we show that elucidating mechanisms of ancient extinctions can benefit from a detailed understanding of fine-scale metapopulation dynamics, operating over many millennia. Using an abundant fossil record, ancient DNA, and high-resolution simulation models, we untangle the ecological mechanisms and causal drivers that are likely to have been integral in the decline and later extinction of the woolly rhinoceros. Our 52,000-y reconstruction of distribution-wide metapopulation dynamics supports a pathway to extinction that began long before the Holocene, when the combination of cooling temperatures and low but sustained hunting by humans trapped woolly rhinoceroses in suboptimal habitats along the southern edge of their range. Modeling indicates that this ecological trap intensified after the end of the last ice age, preventing colonization of newly formed suitable habitats, weakening stabilizing metapopulation processes, triggering the extinction of the woolly rhinoceros in the early Holocene. Our findings suggest that fragmentation and resultant metapopulation dynamics should be explicitly considered in explanations of late Quaternary megafauna extinctions, sending a clarion call to the fragility of the remaining large-bodied grazers restricted to disjunct fragments of poor-quality habitat due to anthropogenic environmental change., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

15. A hyperpolarizing neuron recruits undocked innexin hemichannels to transmit neural information in Caenorhabditis elegans .

Author

Nakayama A, Watanabe M, Yamashiro R, Kuroyanagi H, Matsuyama HJ, Oshima A, Mori I, and Nakano S

Subjects

Animals, Connexins metabolism, Connexins genetics, Interneurons metabolism, Membrane Proteins, Synaptic Vesicles metabolism, Taxis Response physiology, Caenorhabditis elegans metabolism, Caenorhabditis elegans Proteins metabolism, Caenorhabditis elegans Proteins genetics, Neurons metabolism, Synaptic Transmission physiology

Abstract

While depolarization of the neuronal membrane is known to evoke the neurotransmitter release from synaptic vesicles, hyperpolarization is regarded as a resting state of chemical neurotransmission. Here, we report that hyperpolarizing neurons can actively signal neural information by employing undocked hemichannels. We show that UNC-7, a member of the innexin family in Caenorhabditis elegans, functions as a hemichannel in thermosensory neurons and transmits temperature information from the thermosensory neurons to their postsynaptic interneurons. By monitoring neural activities in freely behaving animals, we find that hyperpolarizing thermosensory neurons inhibit the activity of the interneurons and that UNC-7 hemichannels regulate this process. UNC-7 is required to control thermotaxis behavior and functions independently of synaptic vesicle exocytosis. Our findings suggest that innexin hemichannels mediate neurotransmission from hyperpolarizing neurons in a manner that is distinct from the synaptic transmission, expanding the way of neural circuitry operations., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

16. Sum rule comparison of narrowband and broadband sum frequency generation spectra and comparison with theory.

Author

Niu K, Wang HF, and Marcus RA

Abstract

Earlier sum frequency generation (SFG) experiments involve one infrared and one visible laser, and a measurement of the intensity of the response, yielding data on the surface sensitive properties of the sample. Recently, both the real and imaginary components of the susceptibility were measured in two different sets of experiments. In one set, a broadband infrared laser was used, permitting observations at very short times, while in another set the infrared laser was narrowband, permitting higher spectral resolution. The differences in the spectrum obtained by the two will be most evident in studying narrow absorption bands, e.g., the band due to dangling OH bonds at a water interface. The direct comparisons in the integrated amplitude (sum rule) of the imaginary part of the dangling OH bond region differ by a factor of 3. Due to variations in experimental setup and data processing, corrections were made for the quartz reference, Fresnel factors, and the incident visible laser wavelength. After the corrections, the agreement differs now by the factors of 1.1 within broadband and narrowband groups and the two groups now differ by a factor of 1.5. The 1.5 factor may arise from the extra heating of the more powerful broadband laser system on the water surface. The convolution from the narrowband SFG spectrum to the broadband SFG spectrum is also investigated and it does not affect the sum rule. Theory and narrowband experiments are compared using the sum rule and agree to a factor of 1.3 with no adjustable parameters., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

17. Significant shifts in latitudinal optima of North American birds.

Author

Martins PM, Anderson MJ, Sweatman WL, and Punnett AJ

Subjects

Animals, Birds physiology, Ecosystem, North America, Climate Change, Climate

Abstract

Changes in climate can alter environmental conditions faster than most species can adapt. A prediction under a warming climate is that species will shift their distributions poleward through time. While many studies focus on range shifts, latitudinal shifts in species' optima can occur without detectable changes in their range. We quantified shifts in latitudinal optima for 209 North American bird species over the last 55 y. The latitudinal optimum ( m ) for each species in each year was estimated using a bespoke flexible non-linear zero-inflated model of abundance vs. latitude, and the annual shift in m through time was quantified. One-third (70) of the bird species showed a significant shift in their optimum. Overall, mean peak abundances of North American birds have shifted northward, on average, at a rate of 1.5 km per year (±0.58 SE), corresponding to a total distance moved of 82.5 km (±31.9 SE) over the last 55 y. Stronger poleward shifts at the continental scale were linked to key species' traits, including thermal optimum, habitat specialization, and territoriality. Shifts in the western region were larger and less variable than in the eastern region, and they were linked to species' thermal optimum, habitat density preference, and habitat specialization. Individual species' latitudinal shifts were most strongly linked to their estimated thermal optimum, clearly indicating a climate-driven response. Displacement of species from their historically optimal realized niches can have dramatic ecological consequences. Effective conservation must consider within-range abundance shifts. Areas currently deemed "optimal" are unlikely to remain so., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

18. Impact of specific electromagnetic radiation on wakefulness in mice.

Author

Deng H, Liu L, Tang X, Lu Y, Wang X, Zhao Y, and Shi Y

Subjects

Mice, Animals, Electromagnetic Fields, Wakefulness, Electromagnetic Radiation

Abstract

Electromagnetic radiation (EMR) in the environment, particularly in the microwave range, may constitute a public health concern. Exposure to 2.4 GHz EMR modulated by 100 Hz square pulses was recently reported to markedly increase wakefulness in mice. Here, we demonstrate that a similar wakefulness increase can be induced by the modulation frequency of 1,000 Hz, but not 10 Hz. In contrast to the carrier frequency of 2.4 GHz, 935 MHz EMR of the same power density has little impact on wakefulness irrespective of modulation frequency. Notably, the replacement of the 100 Hz square-pulsed modulation by sinusoidal-pulsed modulation of 2.4 GHz EMR still allows a marked increase of wakefulness. In contrast, continuous sinusoidal amplitude modulation of 100 Hz with the same time-averaged power output fails to trigger any detectable change of wakefulness. Therefore, alteration of sleep behavior by EMR depends upon not just carrier frequency but also frequency and mode of the modulation. These results implicate biological sensing mechanisms for specific EMR in animals., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

19. Improving T cell killing and understanding senescence: Possible roles for TP53 in cancer immunotherapy.

Author

Levine AJ

Subjects

Humans, Tumor Suppressor Protein p53 genetics, T-Lymphocytes, Immunotherapy, Cell Death, Cell- and Tissue-Based Therapy, Receptors, Chimeric Antigen, Neoplasms genetics, Neoplasms therapy

Abstract

Competing Interests: Competing interests statement:A.J.L. is a consultant for Chugai Pharmaceutical company. He is a founder, board member and consultant at PMV Pharma, which produces small molecules that reactivate p53 mutant proteins and produce wild type proteins. He is a board member of GeneCentric a cancer RNA diagnostic company. And he consults for ROME (autoimmunity), and WCG (an IRB company).

Published

2024

20. Molecular and structural basis of the dual regulation of the polycystin-2 ion channel by small-molecule ligands.

Author

Wang Z, Chen M, Su Q, Morais TDC, Wang Y, Nazginov E, Pillai AR, Qian F, Shi Y, and Yu Y

Subjects

Humans, Cryoelectron Microscopy, Molecular Docking Simulation, Ion Channels, TRPP Cation Channels metabolism, Polycystic Kidney, Autosomal Dominant drug therapy, Polycystic Kidney, Autosomal Dominant genetics, Polycystic Kidney, Autosomal Dominant metabolism

Abstract

Mutations in the PKD2 gene, which encodes the polycystin-2 (PC2, also called TRPP2) protein, lead to autosomal dominant polycystic kidney disease (ADPKD). As a member of the transient receptor potential (TRP) channel superfamily, PC2 functions as a non-selective cation channel. The activation and regulation of the PC2 channel are largely unknown, and direct binding of small-molecule ligands to this channel has not been reported. In this work, we found that most known small-molecule agonists of the mucolipin TRP (TRPML) channels inhibit the activity of the PC2_F604P, a gain-of-function mutant of the PC2 channel. However, two of them, ML-SA1 and SF-51, have dual regulatory effects, with low concentration further activating PC2_F604P, and high concentration leading to inactivation of the channel. With two cryo-electron microscopy (cryo-EM) structures, a molecular docking model, and mutagenesis results, we identified two distinct binding sites of ML-SA1 in PC2_F604P that are responsible for activation and inactivation, respectively. These results provide structural and functional insights into how ligands regulate PC2 channel function through unusual mechanisms and may help design compounds that are more efficient and specific in regulating the PC2 channel and potentially also for ADPKD treatment., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

21. Seafloor primary production in a changing Arctic Ocean.

Author

Attard K, Singh RK, Gattuso JP, Filbee-Dexter K, Krause-Jensen D, Kühl M, Sejr MK, Archambault P, Babin M, Bélanger S, Berg P, Glud RN, Hancke K, Jänicke S, Qin J, Rysgaard S, Sørensen EB, Tachon F, Wenzhöfer F, and Ardyna M

Subjects

Ecosystem, Budgets, Carbon, Climate Change, Ice Cover, Phytoplankton, Microalgae, Seaweed

Abstract

Phytoplankton and sea ice algae are traditionally considered to be the main primary producers in the Arctic Ocean. In this Perspective, we explore the importance of benthic primary producers (BPPs) encompassing microalgae, macroalgae, and seagrasses, which represent a poorly quantified source of Arctic marine primary production. Despite scarce observations, models predict that BPPs are widespread, colonizing ~3 million km 2 of the extensive Arctic coastal and shelf seas. Using a synthesis of published data and a novel model, we estimate that BPPs currently contribute ~77 Tg C y -1 of primary production to the Arctic, equivalent to ~20 to 35% of annual phytoplankton production. Macroalgae contribute ~43 Tg C y -1 , seagrasses contribute ~23 Tg C y -1 , and microalgae-dominated shelf habitats contribute ~11 to 16 Tg C y -1 . Since 2003, the Arctic seafloor area exposed to sunlight has increased by ~47,000 km 2 y -1 , expanding the realm of BPPs in a warming Arctic. Increased macrophyte abundance and productivity is expected along Arctic coastlines with continued ocean warming and sea ice loss. However, microalgal benthic primary production has increased in only a few shelf regions despite substantial sea ice loss over the past 20 y, as higher solar irradiance in the ice-free ocean is counterbalanced by reduced water transparency. This suggests complex impacts of climate change on Arctic light availability and marine primary production. Despite significant knowledge gaps on Arctic BPPs, their widespread presence and obvious contribution to coastal and shelf ecosystem production call for further investigation and for their inclusion in Arctic ecosystem models and carbon budgets., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

22. Mechanistic insights into the interactions of TAX1BP1 with RB1CC1 and mammalian ATG8 family proteins.

Author

Zhang M, Wang Y, Gong X, Wang Y, Zhang Y, Tang Y, Zhou X, Liu H, Huang Y, Zhang J, and Pan L

Subjects

Animals, Autophagy-Related Protein 8 Family, Binding Sites, Kidney, Mammals, Autophagy, Cell Cycle Proteins

Abstract

TAX1BP1, a multifunctional autophagy adaptor, plays critical roles in different autophagy processes. As an autophagy receptor, TAX1BP1 can interact with RB1CC1, NAP1, and mammalian ATG8 family proteins to drive selective autophagy for relevant substrates. However, the mechanistic bases underpinning the specific interactions of TAX1BP1 with RB1CC1 and mammalian ATG8 family proteins remain elusive. Here, we find that there are two distinct binding sites between TAX1BP1 and RB1CC1. In addition to the previously reported TAX1BP1 SKICH (skeletal muscle and kidney enriched inositol phosphatase (SKIP) carboxyl homology)/RB1CC1 coiled-coil interaction, the first coiled-coil domain of TAX1BP1 can directly bind to the extreme C-terminal coiled-coil and Claw region of RB1CC1. We determine the crystal structure of the TAX1BP1 SKICH/RB1CC1 coiled-coil complex and unravel the detailed binding mechanism of TAX1BP1 SKICH with RB1CC1. Moreover, we demonstrate that RB1CC1 and NAP1 are competitive in binding to the TAX1BP1 SKICH domain, but the presence of NAP1's FIP200-interacting region (FIR) motif can stabilize the ternary TAX1BP1/NAP1/RB1CC1 complex formation. Finally, we elucidate the molecular mechanism governing the selective interactions of TAX1BP1 with ATG8 family members by solving the structure of GABARAP in complex with the non-canonical LIR (LC3-interacting region) motif of TAX1BP1, which unveils a unique binding mode between LIR and ATG8 family protein. Collectively, our findings provide mechanistic insights into the interactions of TAX1BP1 with RB1CC1 and mammalian ATG8 family proteins and are valuable for further understanding the working mode and function of TAX1BP1 in autophagy., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

23. An unusual aromatase/cyclase programs the formation of the phenyldimethylanthrone framework in anthrabenzoxocinones and fasamycin.

Author

Jiang K, Chen X, Yan X, Li G, Lin Z, Deng Z, Luo S, and Qu X

Subjects

Cyclization, Acyl Carrier Protein, Catalysis, Aromatase, Polyketides

Abstract

Aromatic polyketides are renowned for their wide-ranging pharmaceutical activities. Their structural diversity is mainly produced via modification of limited types of basic frameworks. In this study, we characterized the biosynthesis of a unique basic aromatic framework, phenyldimethylanthrone (PDA) found in (+)/(-)-anthrabenzoxocinones (ABXs) and fasamycin (FAS). Its biosynthesis employs a methyltransferase (Abx (+) M/Abx (-) M/FasT) and an unusual TcmI-like aromatase/cyclase (ARO/CYC, Abx (+) D/Abx (-) D/FasL) as well as a nonessential helper ARO/CYC (Abx (+) C/Abx (-) C/FasD) to catalyze the aromatization/cyclization of polyketide chain, leading to the formation of all four aromatic rings of the PDA framework, including the C9 to C14 ring and a rare angular benzene ring. Biochemical and structural analysis of Abx (+) D reveals a unique loop region, giving rise to its distinct acyl carrier protein-dependent specificity compared to other conventional TcmI-type ARO/CYCs, all of which impose on free molecules. Mutagenic analysis discloses critical residues of Abx (+) D for its catalytic activity and indicates that the size and shape of its interior pocket determine the orientation of aromatization/cyclization. This study unveils the tetracyclic and non-TcmN type C9 to C14 ARO/CYC, significantly expanding our cognition of ARO/CYCs and the biosynthesis of aromatic polyketide framework., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

24. Efficiency and resilience of cooperation in asymmetric social dilemmas.

Author

Hübner V, Staab M, Hilbe C, Chatterjee K, and Kleshnina M

Subjects

Humans, Cooperative Behavior, Efficiency, Social Welfare, Game Theory, Resilience, Psychological, Financial Management

Abstract

Direct reciprocity is a powerful mechanism for cooperation in social dilemmas. The very logic of reciprocity, however, seems to require that individuals are symmetric, and that everyone has the same means to influence each others' payoffs. Yet in many applications, individuals are asymmetric. Herein, we study the effect of asymmetry in linear public good games. Individuals may differ in their endowments (their ability to contribute to a public good) and in their productivities (how effective their contributions are). Given the individuals' productivities, we ask which allocation of endowments is optimal for cooperation. To this end, we consider two notions of optimality. The first notion focuses on the resilience of cooperation. The respective endowment distribution ensures that full cooperation is feasible even under the most adverse conditions. The second notion focuses on efficiency. The corresponding endowment distribution maximizes group welfare. Using analytical methods, we fully characterize these two endowment distributions. This analysis reveals that both optimality notions favor some endowment inequality: More productive players ought to get higher endowments. Yet the two notions disagree on how unequal endowments are supposed to be. A focus on resilience results in less inequality. With additional simulations, we show that the optimal endowment allocation needs to account for both the resilience and the efficiency of cooperation., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

25. Dark and Dronc activation in Drosophila melanogaster .

Author

Tian L, Li Y, and Shi Y

Subjects

Animals, Apoptosomes chemistry, Caspases metabolism, Drosophila metabolism, Drosophila melanogaster metabolism, Drosophila Proteins metabolism

Abstract

The onset of apoptosis is characterized by a cascade of caspase activation, where initiator caspases are activated by a multimeric adaptor complex known as the apoptosome. In Drosophila melanogaster , the initiator caspase Dronc undergoes autocatalytic activation in the presence of the Dark apoptosome. Despite rigorous investigations, the activation mechanism for Dronc remains elusive. Here, we report the cryo-EM structures of an auto-inhibited Dark monomer and a single-layered, multimeric Dark/Dronc complex. Our biochemical analysis suggests that the auto-inhibited Dark oligomerizes upon binding to Dronc, which is sufficient for the activation of both Dark and Dronc. In contrast, the previously observed double-ring Dark apoptosome may represent a non-functional or "off-pathway" conformation. These findings expand our understanding on the molecular mechanism of apoptosis in Drosophila ., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

26. Women's subsistence strategies predict fertility across cultures, but context matters.

Author

Page AE, Ringen EJ, Koster J, Borgerhoff Mulder M, Kramer K, Shenk MK, Stieglitz J, Starkweather K, Ziker JP, Boyette AH, Colleran H, Moya C, Du J, Mattison SM, Greaves R, Sum CY, Liu R, Lew-Levy S, Kiabiya Ntamboudila F, Prall S, Towner MC, Blumenfield T, Migliano AB, Major-Smith D, Dyble M, Salali GD, Chaudhary N, Derkx IE, Ross CT, Scelza BA, Gurven MD, Winterhalder BP, Cortez C, Pacheco-Cobos L, Schacht R, Macfarlan SJ, Leonetti D, French JC, Alam N, Zohora FT, Kaplan HS, Hooper PL, and Sear R

Subjects

Female, Humans, Population Dynamics, Socioeconomic Factors, Developing Countries, Fertility, Economics

Abstract

While it is commonly assumed that farmers have higher, and foragers lower, fertility compared to populations practicing other forms of subsistence, robust supportive evidence is lacking. We tested whether subsistence activities-incorporating market integration-are associated with fertility in 10,250 women from 27 small-scale societies and found considerable variation in fertility. This variation did not align with group-level subsistence typologies. Societies labeled as "farmers" did not have higher fertility than others, while "foragers" did not have lower fertility. However, at the individual level, we found strong evidence that fertility was positively associated with farming and moderate evidence of a negative relationship between foraging and fertility. Markers of market integration were strongly negatively correlated with fertility. Despite strong cross-cultural evidence, these relationships were not consistent in all populations, highlighting the importance of the socioecological context, which likely influences the diverse mechanisms driving the relationship between fertility and subsistence., Competing Interests: Competing interests statement:The authors declare no competing interest.This article is a PNAS Direct Submission. J.H.J. is a guest editor invited by the Editorial Board.

Published

2024

27. Multidimensional high-harmonic echo spectroscopy: Resolving coherent electron dynamics in the EUV regime.

Author

Jiang S, Gudem M, Kowalewski M, and Dorfman K

Abstract

We theoretically propose a multidimensional high-harmonic echo spectroscopy technique which utilizes strong optical fields to resolve coherent electron dynamics spanning an energy range of multiple electronvolts. Using our recently developed semi-perturbative approach, we can describe the coherent valence electron dynamics driven by a sequence of phase-matched and well-separated short few-cycle strong infrared laser pulses. The recombination of tunnel-ionized electrons by each pulse coherently populates the valence states of a molecule, which allows for a direct observation of its dynamics via the high harmonic echo signal. The broad bandwidth of the effective dipole between valence states originated from the strong-field excitation results in nontrivial ultra-delayed partial rephasing echo, which is not observed in standard two-dimensional optical spectroscopic techniques in a two-level molecular systems. We demonstrate the results of simulations for the anionic molecular system and show that the ultrafast valence electron dynamics can be well captured with femtosecond resolution., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

28. Suppressing metal corrosion through identification of optimal crystallographic plane for Zn batteries.

Author

Ren L, Hu Z, Peng C, Zhang L, Wang N, Wang F, Xia Y, Zhang S, Hu E, and Luo J

Abstract

Direct use of metals as battery anodes could significantly boost the energy density, but suffers from limited cycling. To make the batteries more sustainable, one strategy is mitigating the propensity for metals to form random morphology during plating through orientation regulation, e.g., hexagonal Zn platelets locked horizontally by epitaxial electrodeposition or vertically aligned through Zn/electrolyte interface modulation. Current strategies center around obtaining (002) faceted deposition due to its minimum surface energy. Here, benefiting from the capability of preparing a library of faceted monocrystalline Zn anodes and controlling the orientation of Zn platelet deposits, we challenge this conventional belief. We show that while monocrystalline (002) faceted Zn electrode with horizontal epitaxy indeed promises the highest critical current density, the (100) faceted electrode with vertically aligned deposits is the most important one in suppressing Zn metal corrosion and promising the best reversibility. Such uniqueness results from the lowest electrochemical surface area of (100) faceted electrode, which intrinsically builds upon the surface atom diffusion barrier and the orientation of the pallets. These new findings based on monocrystalline anodes advance the fundamental understanding of electrodeposition process for sustainable metal batteries and provide a paradigm to explore the processing-structure-property relationships of metal electrodes., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

29. Idiosyncratic patterns of local species richness and turnover define global biodiversity hotspots.

Author

Sonne J and Rahbek C

Subjects

Tropical Climate, Biodiversity, Forests

Abstract

Tropical mountains are global biodiversity hotspots, owing to a combination of high local species richness and turnover in species composition. Typically, the highest local richness and turnover levels are implicitly assumed to converge in the same mountain regions, resulting in extraordinary species richness at regional to global scales. We investigated this untested assumption using high-resolution distribution data for all 9,788 bird species found in 134 mountain regions worldwide. Contrary to expectations, the mountain regions with the highest local richness differed from those with the highest species turnover. This finding reflects dissimilarities in the regions' climates and habitat compositions. Forest habitats and humid tropical climates characterize the mountain regions with the highest local richness. In contrast, mountain regions with the highest turnover are generally colder with drier climates and have mostly open habitat types. The highest local species richness and turnover levels globally converge in only a few mountain regions with the greatest climate volumes and topographic heterogeneity, resulting in the most prominent global hotspots for avian biodiversity. These results underline that species-richness hotspots in tropical mountains arise from idiosyncratic levels of local species richness and turnover, a pattern that traditional analyses of overall regional species richness do not detect., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2024

30. A theoretical perspective on Waddington's genetic assimilation experiments.

Author

Raju A, Xue B, and Leibler S

Subjects

Phenotype, Penetrance, Biological Evolution, Epigenesis, Genetic, Adaptation, Physiological, Models, Genetic

Abstract

Genetic assimilation is the process by which a phenotype that is initially induced by an environmental stimulus becomes stably inherited in the absence of the stimulus after a few generations of selection. While the concept has attracted much debate after being introduced by C. H. Waddington 70 y ago, there have been few experiments to quantitatively characterize the phenomenon. Here, we revisit and organize the results of Waddington's original experiments and follow-up studies that attempted to replicate his results. We then present a theoretical model to illustrate the process of genetic assimilation and highlight several aspects that we think require further quantitative studies, including the gradual increase of penetrance, the statistics of delay in assimilation, and the frequency of unviability during selection. Our model captures Waddington's picture of developmental paths in a canalized landscape using a stochastic dynamical system with alternative trajectories that can be controlled by either external signals or internal variables. It also reconciles two descriptions of the phenomenon-Waddington's, expressed in terms of an individual organism's developmental paths, and that of Bateman in terms of the population distribution crossing a hypothetical threshold. Our results provide theoretical insight into the concepts of canalization, phenotypic plasticity, and genetic assimilation., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2023

31. Rex1BD and the 14-3-3 protein control heterochromatin organization at tandem repeats by linking RNAi and HDAC.

Author

Gao J, Sun W, Li J, Ban H, Zhang T, Liao J, Kim N, Lee SH, Dong Q, Madramootoo R, Chen Y, and Li F

Subjects

RNA Interference, Heterochromatin genetics, Heterochromatin metabolism, 14-3-3 Proteins genetics, 14-3-3 Proteins metabolism, Histone Deacetylases metabolism, DNA metabolism, Tandem Repeat Sequences, Schizosaccharomyces pombe Proteins metabolism, Schizosaccharomyces metabolism

Abstract

Tandem DNA repeats are often organized into heterochromatin that is crucial for genome organization and stability. Recent studies revealed that individual repeats within tandem DNA repeats can behave very differently. How DNA repeats are assembled into distinct heterochromatin structures remains poorly understood. Here, we developed a genome-wide genetic screen using a reporter gene at different units in a repeat array. This screen led to identification of a conserved protein Rex1BD required for heterochromatin silencing. Our structural analysis revealed that Rex1BD forms a four-helix bundle structure with a distinct charged electrostatic surface. Mechanistically, Rex1BD facilitates the recruitment of Clr6 histone deacetylase (HDAC) by interacting with histones. Interestingly, Rex1BD also interacts with the 14-3-3 protein Rad25, which is responsible for recruiting the RITS (RNA-induced transcriptional silencing) complex to DNA repeats. Our results suggest that coordinated action of Rex1BD and Rad25 mediates formation of distinct heterochromatin structure at DNA repeats via linking RNAi and HDAC pathways., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published

2023

32. Cooperation and deception through stigmergic interactions in human groups.

Author

Bassanetti T, Cezera S, Delacroix M, Escobedo R, Blanchet A, Sire C, and Theraulaz G

Subjects

Humans, Deception, Group Processes

Abstract

Stigmergy is a generic coordination mechanism widely used by animal societies, in which traces left by individuals in a medium guide and stimulate their subsequent actions. In humans, new forms of stigmergic processes have emerged through the development of online services that extensively use the digital traces left by their users. Here, we combine interactive experiments with faithful data-based modeling to investigate how groups of individuals exploit a simple rating system and the resulting traces in an information search task in competitive or noncompetitive conditions. We find that stigmergic interactions can help groups to collectively find the cells with the highest values in a table of hidden numbers. We show that individuals can be classified into three behavioral profiles that differ in their degree of cooperation. Moreover, the competitive situation prompts individuals to give deceptive ratings and reinforces the weight of private information versus social information in their decisions.

Published

2023

33. Growth mechanisms and anisotropic softness-dependent conductivity of orientation-controllable metal-organic framework nanofilms.

Author

Yao MS, Otake KI, Koganezawa T, Ogasawara M, Asakawa H, Tsujimoto M, Xue ZQ, Li YH, Flanders NC, Wang P, Gu YF, Honma T, Kawaguchi S, Kubota Y, and Kitagawa S

Abstract

Conductive metal-organic frameworks ( c MOFs) manifest great potential in modern electrical devices due to their porous nature and the ability to conduct charges in a regular network. c MOFs applied in electrical devices normally hybridize with other materials, especially a substrate. Therefore, the precise control of the interface between c MOF and a substrate is particularly crucial. However, the unexplored interface chemistry of c MOFs makes the controlled synthesis and advanced characterization of high-quality thin films, particularly challenging. Herein, we report the development of a simplified synthesis method to grow "face-on" and "edge-on" c MOF nanofilms on substrates, and the establishment of operando characterization methodology using atomic force microscopy and X-ray, thereby demonstrating the relationship between the soft structure of surface-mounted oriented networks and their characteristic conductive functions. As a result, crystallinity of c MOF nanofilms with a thickness down to a few nanometers is obtained, the possible growth mechanisms are proposed, and the interesting anisotropic softness-dependent conducting properties (over 2 orders of magnitude change) of the c MOF are also illustrated.

Published

2023

34. Earthquake alerting based on spatial geodetic data by spatiotemporal information transformation learning.

Author

Tong Y, Hong R, Zhang Z, Aihara K, Chen P, Liu R, and Chen L

Abstract

Alerting for imminent earthquakes is particularly challenging due to the high nonlinearity and nonstationarity of geodynamical phenomena. In this study, based on spatiotemporal information (STI) transformation for high-dimensional real-time data, we developed a model-free framework, i.e., real-time spatiotemporal information transformation learning (RSIT), for extending the nonlinear and nonstationary time series. Specifically, by transforming high-dimensional information of the global navigation satellite system into one-dimensional dynamics via the STI strategy, RSIT efficiently utilizes two criteria of the transformed one-dimensional dynamics, i.e., unpredictability and instability. Such two criteria contemporaneously signal a potential critical transition of the geodynamical system, thereby providing early-warning signals of possible upcoming earthquakes. RSIT explores both the spatial and temporal dynamics of real-world data on the basis of a solid theoretical background in nonlinear dynamics and delay-embedding theory. The effectiveness of RSIT was demonstrated on geodynamical data of recent earthquakes from a number of regions across at least 4 y and through further comparison with existing methods.

Published

2023

35. Mammalian mitochondrial translation infidelity leads to oxidative stress-induced cell cycle arrest and cardiomyopathy.

Author

Zheng WQ, Zhang JH, Li ZH, Liu X, Zhang Y, Huang S, Li J, Zhou B, Eriani G, Wang ED, and Zhou XL

Subjects

Animals, Mice, Reactive Oxygen Species, Cell Cycle Checkpoints, Oxidative Stress, Mammals, Cardiomyopathies, Heart Diseases, Amino Acyl-tRNA Synthetases

Abstract

Proofreading (editing) of mischarged tRNAs by cytoplasmic aminoacyl-tRNA synthetases (aaRSs), whose impairment causes neurodegeneration and cardiac diseases, is of high significance for protein homeostasis. However, whether mitochondrial translation needs fidelity and the significance of editing by mitochondrial aaRSs have been unclear. Here, we show that mammalian cells critically depended on the editing of mitochondrial threonyl-tRNA synthetase (mtThrRS, encoded by Tars2 ), disruption of which accumulated Ser-tRNA Thr and generated a large abundance of Thr-to-Ser misincorporated peptides in vivo. Such infidelity impaired mitochondrial translation and oxidative phosphorylation, causing oxidative stress and cell cycle arrest in the G0/G1 phase. Notably, reactive oxygen species (ROS) scavenging by N-acetylcysteine attenuated this abnormal cell proliferation. A mouse model of heart-specific defective mtThrRS editing was established. Increased ROS levels, blocked cardiomyocyte proliferation, contractile dysfunction, dilated cardiomyopathy, and cardiac fibrosis were observed. Our results elucidate that mitochondria critically require a high level of translational accuracy at Thr codons and highlight the cellular dysfunctions and imbalance in tissue homeostasis caused by mitochondrial mistranslation.

Published

2023

36. Physics-supervised deep learning-based optimization (PSDLO) with accuracy and efficiency.

Author

Li X, Chang L, Cao Y, Lu J, Lu X, and Jiang H

Abstract

Identifying efficient and accurate optimization algorithms is a long-desired goal for the scientific community. At present, a combination of evolutionary and deep-learning methods is widely used for optimization. In this paper, we demonstrate three cases involving different physics and conclude that no matter how accurate a deep-learning model is for a single, specific problem, a simple combination of evolutionary and deep-learning methods cannot achieve the desired optimization because of the intrinsic nature of the evolutionary method. We begin by using a physics-supervised deep-learning optimization algorithm (PSDLO) to supervise the results from the deep-learning model. We then intervene in the evolutionary process to eventually achieve simultaneous accuracy and efficiency. PSDLO is successfully demonstrated using both sufficient and insufficient datasets. PSDLO offers a perspective for solving optimization problems and can tackle complex science and engineering problems having many features. This approach to optimization algorithms holds tremendous potential for application in real-world engineering domains.

Published

2023

37. A standing Leidenfrost drop with Sufi whirling.

Author

Yang J, Li Y, Wang D, Fan Y, Ma Y, Yu F, Guo J, Chen L, Wang Z, and Deng X

Abstract

When a water drop is placed on a hot solid surface, it either undergoes explosive contact boiling or exhibits a stable state. In the latter case, the drop floats over an insulating layer of vapor generated by rapid vaporization of water at the surface/drop interface; this is known as the Leidenfrost state. Here, we discuss a previously unrecognized steady state in which a water drop "stands" on a hot smooth surface. In this state, the drop stabilizes itself with partial adhesion on the hot surface, leading to unique deformation and rotation behavior reminiscent of Sufi whirling-a form of spinning dance. Our analysis of this standing Leidenfrost state reveals the underlying mechanisms that drive the drop's stable partial adhesion and subsequent deformation with rotation. The heat-transfer efficiency of this standing state is up to 390% greater than that of the traditional floating Leidenfrost state.

Published

2023

38. mthl1 , a potential Drosophila homologue of mammalian adhesion GPCRs, is involved in antitumor reactions to injected oncogenic cells in flies.

Author

Chen D, Lan X, Huang X, Huang J, Zhou X, Liu J, and Hoffmann JA

Subjects

Animals, Male, Mice, Drosophila melanogaster genetics, Drosophila melanogaster metabolism, Gene Expression Profiling, Mammals genetics, Myeloid Cells metabolism, Receptors, G-Protein-Coupled genetics, Receptors, G-Protein-Coupled metabolism, Drosophila genetics, Drosophila Proteins genetics, Drosophila Proteins metabolism

Abstract

Injection of OCs into adult male flies induces a strong transcriptomic response in the host flies featuring in particular genes encoding bona fide G coupled proteins, among which the gene for methuselah like 1 is prominent. The injection is followed after a 3-d lag period, by the proliferation of the oncogenic cells. We hypothesized that through the product of mthl1 the host might control, at least in part, this proliferation as a defense reaction. Through a combination of genetic manipulations of the mthl1 gene (loss of function and overexpression of mthl1 ), we document that indeed this gene has an antiproliferative effect. Parallel injections of primary embryonic Drosophila controls the expression of a large number of genes coding for chemoreceptors and genes implicated in regulation of development. Of great potential interest is our observation that the expression of the mouse gene coding for the mthl1 controls the expression of a large number of genes coding for chemoreceptors and genes implicated in regulation of development. Of great potential interest is our observation that the expression of the mouse gene coding for the adhesion G-protein-coupled receptor E1 ( Adgre1, also known as F4/80 ), a potential mammalian homologue of mthl1 , is significantly induced by B16-F10 melanoma cell inoculation 3 d postinjection in both the bone marrow and spleen (nests of immature and mature myeloid-derived immune cells), respectively. This observation is compatible with a role of this GPCR in the early response to injected tumor cells in mice.

Published

2023

39. MicroRNA-335-5p suppresses voltage-gated sodium channel expression and may be a target for seizure control.

Author

Heiland M, Connolly NMC, Mamad O, Nguyen NT, Kesavan JC, Langa E, Fanning K, Sanfeliu A, Yan Y, Su J, Venø MT, Costard LS, Neubert V, Engel T, Hill TDM, Freiman TM, Mahesh A, Tiwari VK, Rosenow F, Bauer S, Kjems J, Morris G, and Henshall DC

Subjects

Humans, Mice, Rats, Animals, Seizures chemically induced, Seizures genetics, Seizures metabolism, NAV1.1 Voltage-Gated Sodium Channel genetics, NAV1.1 Voltage-Gated Sodium Channel metabolism, NAV1.3 Voltage-Gated Sodium Channel genetics, Induced Pluripotent Stem Cells metabolism, Epilepsy, MicroRNAs genetics, MicroRNAs metabolism, Voltage-Gated Sodium Channels genetics

Abstract

There remains an urgent need for new therapies for treatment-resistant epilepsy. Sodium channel blockers are effective for seizure control in common forms of epilepsy, but loss of sodium channel function underlies some genetic forms of epilepsy. Approaches that provide bidirectional control of sodium channel expression are needed. MicroRNAs (miRNA) are small noncoding RNAs which negatively regulate gene expression. Here we show that genome-wide miRNA screening of hippocampal tissue from a rat epilepsy model, mice treated with the antiseizure medicine cannabidiol, and plasma from patients with treatment-resistant epilepsy, converge on a single target-miR-335-5p. Pathway analysis on predicted and validated miR-335-5p targets identified multiple voltage-gated sodium channels (VGSCs). Intracerebroventricular injection of antisense oligonucleotides against miR-335-5p resulted in upregulation of Scn1a , Scn2a , and Scn3a in the mouse brain and an increased action potential rising phase and greater excitability of hippocampal pyramidal neurons in brain slice recordings, consistent with VGSCs as functional targets of miR-335-5p. Blocking miR-335-5p also increased voltage-gated sodium currents and SCN1A, SCN2A , and SCN3A expression in human induced pluripotent stem cell-derived neurons. Inhibition of miR-335-5p increased susceptibility to tonic-clonic seizures in the pentylenetetrazol seizure model, whereas adeno-associated virus 9-mediated overexpression of miR-335-5p reduced seizure severity and improved survival. These studies suggest modulation of miR-335-5p may be a means to regulate VGSCs and affect neuronal excitability and seizures. Changes to miR-335-5p may reflect compensatory mechanisms to control excitability and could provide biomarker or therapeutic strategies for different types of treatment-resistant epilepsy.

Published

2023

40. Self-programmed dynamics of T cell receptor condensation.

Author

Chen H, Xu X, Hu W, Wu S, Xiao J, Wu P, Wang X, Han X, Zhang Y, Zhang Y, Jiang N, Liu W, Lou C, Chen W, Xu C, and Lou J

Subjects

Signal Transduction physiology, Phosphorylation, Antigens metabolism, Receptors, Antigen, T-Cell, Lymphocyte Specific Protein Tyrosine Kinase p56(lck)

Abstract

A common event upon receptor-ligand engagement is the formation of receptor clusters on the cell surface, in which signaling molecules are specifically recruited or excluded to form signaling hubs to regulate cellular events. These clusters are often transient and can be disassembled to terminate signaling. Despite the general relevance of dynamic receptor clustering in cell signaling, the regulatory mechanism underlying the dynamics is still poorly understood. As a major antigen receptor in the immune system, T cell receptors (TCR) form spatiotemporally dynamic clusters to mediate robust yet temporal signaling to induce adaptive immune responses. Here we identify a phase separation mechanism controlling dynamic TCR clustering and signaling. The TCR signaling component CD3ε chain can condensate with Lck kinase through phase separation to form TCR signalosomes for active antigen signaling. Lck-mediated CD3ε phosphorylation, however, switched its binding preference to Csk, a functional suppressor of Lck, to cause the dissolvement of TCR signalosomes. Modulating TCR/Lck condensation by targeting CD3ε interactions with Lck or Csk directly affects T cell activation and function, highlighting the importance of the phase separation mechanism. The self-programmed condensation and dissolvement is thus a built-in mechanism of TCR signaling and might be relevant to other receptors.

Published

2023

41. An inducible hACE2 transgenic mouse model recapitulates SARS-CoV-2 infection and pathogenesis in vivo.

Author

Liu K, Tang M, Xu W, Meng X, Jin H, Han M, Pu J, Li Y, Jiao F, Sun R, Shen R, Lui KO, Lu L, and Zhou B

Subjects

Humans, Animals, Mice, Mice, Transgenic, SARS-CoV-2, Epithelial Cells, Alveolar Epithelial Cells, Disease Models, Animal, COVID-19

Abstract

The classical manifestation of COVID-19 is pulmonary infection. After host cell entry via human angiotensin-converting enzyme II (hACE2), the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) virus can infect pulmonary epithelial cells, especially the AT2 (alveolar type II) cells that are crucial for maintaining normal lung function. However, previous hACE2 transgenic models have failed to specifically and efficiently target the cell types that express hACE2 in humans, especially AT2 cells. In this study, we report an inducible, transgenic hACE2 mouse line and showcase three examples for specifically expressing hACE2 in three different lung epithelial cells, including AT2 cells, club cells, and ciliated cells. Moreover, all these mice models develop severe pneumonia after SARS-CoV-2 infection. This study demonstrates that the hACE2 model can be used to precisely study any cell type of interest with regard to COVID-19-related pathologies.

Published

2023

42. The evolution of early hominin food production and sharing.

Author

Alger I, Dridi S, Stieglitz J, and Wilson ML

Subjects

Female, Male, Adult, Animals, Humans, Cell Communication, Cooking, Plant Extracts, Meat, Animal Feed

Abstract

How did humans evolve from individualistic to collective foraging with sex differences in production and widespread sharing of plant and animal foods? While current evolutionary scenarios focus on meat, cooking, or grandparental subsidies, considerations of the economics of foraging for extracted plant foods (e.g., roots, tubers), inferred to be important for early hominins (∼6 to 2.5 mya), suggest that early hominins shared such foods with offspring and others. Here, we present a conceptual and mathematical model of early hominin food production and sharing, prior to the emergence of frequent hunting, cooking, and increased lifespan. We hypothesize that extracted plant foods were vulnerable to theft, and that male mate guarding protected females from food theft. We identify conditions favoring extractive foraging and food sharing across mating systems (i.e., monogamy, polygyny, promiscuity), and we assess which system maximizes female fitness with changes in the profitability of extractive foraging. Females extract foods and share them with males only when: i) extracting rather than collecting plant foods pays off energetically; and ii) males guard females. Males extract foods when they are sufficiently high in value, but share with females only under promiscuous mating and/or no mate guarding. These results suggest that if early hominins had mating systems with pair-bonds (monogamous or polygynous), then food sharing by adult females with unrelated adult males occurred before hunting, cooking, and extensive grandparenting. Such cooperation may have enabled early hominins to expand into more open, seasonal habitats, and provided a foundation for the subsequent evolution of human life histories.

Published

2023

43. Electron heating in kinetic-Alfvén-wave turbulence.

Author

Zhou M, Liu Z, and Loureiro NF

Abstract

We report analytical and numerical investigations of subion-scale turbulence in low-beta plasmas using a rigorous reduced kinetic model. We show that efficient electron heating occurs and is primarily due to Landau damping of kinetic Alfvén waves, as opposed to Ohmic dissipation. This collisionless damping is facilitated by the local weakening of advective nonlinearities and the ensuing unimpeded phase mixing near intermittent current sheets, where free energy concentrates. The linearly damped energy of electromagnetic fluctuations at each scale explains the steepening of their energy spectrum with respect to a fluid model where such damping is excluded (i.e., a model that imposes an isothermal electron closure). The use of a Hermite polynomial representation to express the velocity-space dependence of the electron distribution function enables us to obtain an analytical, lowest-order solution for the Hermite moments of the distribution, which is borne out by numerical simulations.

Published

2023

44. Competition and moral behavior: A meta-analysis of forty-five crowd-sourced experimental designs.

Author

Huber C, Dreber A, Huber J, Johannesson M, Kirchler M, Weitzel U, Abellán M, Adayeva X, Ay FC, Barron K, Berry Z, Bönte W, Brütt K, Bulutay M, Campos-Mercade P, Cardella E, Claassen MA, Cornelissen G, Dawson IGJ, Delnoij J, Demiral EE, Dimant E, Doerflinger JT, Dold M, Emery C, Fiala L, Fiedler S, Freddi E, Fries T, Gasiorowska A, Glogowsky U, M Gorny P, Gretton JD, Grohmann A, Hafenbrädl S, Handgraaf M, Hanoch Y, Hart E, Hennig M, Hudja S, Hütter M, Hyndman K, Ioannidis K, Isler O, Jeworrek S, Jolles D, Juanchich M, Kc RP, Khadjavi M, Kugler T, Li S, Lucas B, Mak V, Mechtel M, Merkle C, Meyers EA, Mollerstrom J, Nesterov A, Neyse L, Nieken P, Nussberger AM, Palumbo H, Peters K, Pirrone A, Qin X, Rahal RM, Rau H, Rincke J, Ronzani P, Roth Y, Saral AS, Schmitz J, Schneider F, Schram A, Schudy S, Schweitzer ME, Schwieren C, Scopelliti I, Sirota M, Sonnemans J, Soraperra I, Spantig L, Steimanis I, Steinmetz J, Suetens S, Theodoropoulou A, Urbig D, Vorlaufer T, Waibel J, Woods D, Yakobi O, Yilmaz O, Zaleskiewicz T, Zeisberger S, and Holzmeister F

Abstract

Does competition affect moral behavior? This fundamental question has been debated among leading scholars for centuries, and more recently, it has been tested in experimental studies yielding a body of rather inconclusive empirical evidence. A potential source of ambivalent empirical results on the same hypothesis is design heterogeneity-variation in true effect sizes across various reasonable experimental research protocols. To provide further evidence on whether competition affects moral behavior and to examine whether the generalizability of a single experimental study is jeopardized by design heterogeneity, we invited independent research teams to contribute experimental designs to a crowd-sourced project. In a large-scale online data collection, 18,123 experimental participants were randomly allocated to 45 randomly selected experimental designs out of 95 submitted designs. We find a small adverse effect of competition on moral behavior in a meta-analysis of the pooled data. The crowd-sourced design of our study allows for a clean identification and estimation of the variation in effect sizes above and beyond what could be expected due to sampling variance. We find substantial design heterogeneity-estimated to be about 1.6 times as large as the average standard error of effect size estimates of the 45 research designs-indicating that the informativeness and generalizability of results based on a single experimental design are limited. Drawing strong conclusions about the underlying hypotheses in the presence of substantive design heterogeneity requires moving toward much larger data collections on various experimental designs testing the same hypothesis.

Published

2023

45. Photoelectron spectroscopy with entangled photons; enhanced spectrotemporal resolution.

Author

Gu B, Sun S, Chen F, and Mukamel S

Abstract

In this theoretical study, we show how photoelectron signals generated by time-energy entangled photon pairs can monitor ultrafast excited state dynamics of molecules with high joint spectral and temporal resolutions, not limited by the Fourier uncertainty of classical light. This technique scales linearly, rather than quadratically, with the pump intensity, allowing the study of fragile biological samples with low photon fluxes. Since the spectral resolution is achieved by electron detection and the temporal resolution by a variable phase delay, this technique does not require scanning the pump frequency and the entanglement times, which significantly simplifies the experimental setup, making it feasible with current instrumentation. Application is made to the photodissociation dynamics of pyrrole calculated by exact nonadiabatic wave packet simulations in a reduced two nuclear coordinate space. This study demonstrates the unique advantages of ultrafast quantum light spectroscopy.

Published

2023

46. A large conserved family of small-molecule carboxyl methyltransferases identified from microorganisms.

Author

Lin Z, Hu Z, Zhou L, Liu B, Huang X, Deng Z, and Qu X

Subjects

Humans, Amino Acid Sequence, Methyltransferases metabolism, Plants metabolism

Abstract

Small-molecule carboxyl methyltransferases (CbMTs) constitute a small proportion of the reported methyltransferases, but they have received extensive attention due to their important physiological functions. Most of the small-molecule CbMTs isolated to date originate from plants and are members of the SABATH family. In this study, we identified a type of CbMT (OPCMT) from a group of Mycobacteria , which has a distinct catalytic mechanism from the SABATH methyltransferases. The enzyme contains a large hydrophobic substrate-binding pocket (~400 Å 3 ) and utilizes two conserved residues, Thr20 and Try194, to retain the substrate in a favorable orientation for catalytic transmethylation. The OPCMT_like MTs have a broad substrate scope and can accept diverse carboxylic acids enabling efficient production of methyl esters. They are widely (more than 10,000) distributed in microorganisms, including several well-known pathogens, whereas no related genes are found in humans. In vivo experiments implied that the OPCMT_like MTs was indispensable for M. neoaurum , suggesting that these proteins have important physiological functions.

Published

2023

47. Observation-derived 2010-2019 trends in methane emissions and intensities from US oil and gas fields tied to activity metrics.

Author

Lu X, Jacob DJ, Zhang Y, Shen L, Sulprizio MP, Maasakkers JD, Varon DJ, Qu Z, Chen Z, Hmiel B, Parker RJ, Boesch H, Wang H, He C, and Fan S

Abstract

The United States is the world's largest oil/gas methane emitter according to current national reports. Reducing these emissions is a top priority in the US government's climate action plan. Here, we use a 2010 to 2019 high-resolution inversion of surface and satellite observations of atmospheric methane to quantify emission trends for individual oil/gas production regions in North America and relate them to production and infrastructure. We estimate a mean US oil/gas methane emission of 14.8 (12.4 to 16.5) Tg a -1 for 2010 to 2019, 70% higher than reported by the US Environmental Protection Agency. While emissions in Canada and Mexico decreased over the period, US emissions increased from 2010 to 2014, decreased until 2017, and rose again afterward. Increases were driven by the largest production regions (Permian, Anadarko, Marcellus), while emissions in the smaller production regions generally decreased. Much of the year-to-year emission variability can be explained by oil/gas production rates, active well counts, and new wells drilled, with the 2014 to 2017 decrease driven by reduction in new wells and the 2017 to 2019 surge driven by upswing of production. We find a steady decrease in the oil/gas methane intensity (emission per unit methane gas production) for almost all major US production regions. The mean US methane intensity decreased from 3.7% in 2010 to 2.5% in 2019. If the methane intensity for the oil/gas supply chain continues to decrease at this pace, we may expect a 32% decrease in US oil/gas emissions by 2030 despite projected increases in production.

Published

2023

48. Structural insights into the multifunctionality of rabies virus P3 protein.

Author

Sethi A, Rawlinson SM, Dubey A, Ang CS, Choi YH, Yan F, Okada K, Rozario AM, Brice AM, Ito N, Williamson NA, Hatters DM, Bell TDM, Arthanari H, Moseley GW, and Gooley PR

Subjects

Humans, Viral Proteins genetics, Viral Proteins metabolism, Virulence Factors metabolism, Protein Isoforms metabolism, Rabies virus genetics, Rabies

Abstract

Viruses form extensive interfaces with host proteins to modulate the biology of the infected cell, frequently via multifunctional viral proteins. These proteins are conventionally considered as assemblies of independent functional modules, where the presence or absence of modules determines the overall composite phenotype. However, this model cannot account for functions observed in specific viral proteins. For example, rabies virus (RABV) P3 protein is a truncated form of the pathogenicity factor P protein, but displays a unique phenotype with functions not seen in longer isoforms, indicating that changes beyond the simple complement of functional modules define the functions of P3. Here, we report structural and cellular analyses of P3 derived from the pathogenic RABV strain Nishigahara (Nish) and an attenuated derivative strain (Ni-CE). We identify a network of intraprotomer interactions involving the globular C-terminal domain and intrinsically disordered regions (IDRs) of the N-terminal region that characterize the fully functional Nish P3 to fluctuate between open and closed states, whereas the defective Ni-CE P3 is predominantly open. This conformational difference appears to be due to the single mutation N226H in Ni-CE P3. We find that Nish P3, but not Ni-CE or N226H P3, undergoes liquid-liquid phase separation and this property correlates with the capacity of P3 to interact with different cellular membrane-less organelles, including those associated with immune evasion and pathogenesis. Our analyses propose that discrete functions of a critical multifunctional viral protein depend on the conformational arrangements of distant individual domains and IDRs, in addition to their independent functions.

Published

2023

49. Brain volume, energy balance, and cardiovascular health in two nonindustrial South American populations.

Author

Kaplan H, Hooper PL, Gatz M, Mack WJ, Law EM, Chui HC, Sutherland ML, Sutherland JD, Rowan CJ, Wann LS, Allam AH, Thompson RC, Michalik DE, Lombardi G, Miyamoto MI, Eid Rodriguez D, Copajira Adrian J, Quispe Gutierrez R, Beheim BA, Cummings DK, Seabright E, Alami S, R Garcia A, Buetow K, Thomas GS, Finch CE, Stieglitz J, Trumble BC, Gurven MD, and Irimia A

Subjects

Humans, United States, Cross-Sectional Studies, Brain, South America, Aging, Cardiovascular System

Abstract

Little is known about brain aging or dementia in nonindustrialized environments that are similar to how humans lived throughout evolutionary history. This paper examines brain volume (BV) in middle and old age among two indigenous South American populations, the Tsimane and Moseten, whose lifestyles and environments diverge from those in high-income nations. With a sample of 1,165 individuals aged 40 to 94, we analyze population differences in cross-sectional rates of decline in BV with age. We also assess the relationships of BV with energy biomarkers and arterial disease and compare them against findings in industrialized contexts. The analyses test three hypotheses derived from an evolutionary model of brain health, which we call the embarrassment of riches (EOR). The model hypothesizes that food energy was positively associated with late life BV in the physically active, food-limited past, but excess body mass and adiposity are now associated with reduced BV in industrialized societies in middle and older ages. We find that the relationship of BV with both non-HDL cholesterol and body mass index is curvilinear, positive from the lowest values to 1.4 to 1.6 SDs above the mean, and negative from that value to the highest values. The more acculturated Moseten exhibit a steeper decrease in BV with age than Tsimane, but still shallower than US and European populations. Lastly, aortic arteriosclerosis is associated with lower BV. Complemented by findings from the United States and Europe, our results are consistent with the EOR model, with implications for interventions to improve brain health.

Published

2023

50. Augmenting astrophysical scaling relations with machine learning: Application to reducing the Sunyaev-Zeldovich flux-mass scatter.

Author

Wadekar D, Thiele L, Villaescusa-Navarro F, Hill JC, Cranmer M, Spergel DN, Battaglia N, Anglés-Alcázar D, Hernquist L, and Ho S

Abstract

Complex astrophysical systems often exhibit low-scatter relations between observable properties (e.g., luminosity, velocity dispersion, oscillation period). These scaling relations illuminate the underlying physics, and can provide observational tools for estimating masses and distances. Machine learning can provide a fast and systematic way to search for new scaling relations (or for simple extensions to existing relations) in abstract high-dimensional parameter spaces. We use a machine learning tool called symbolic regression (SR), which models patterns in a dataset in the form of analytic equations. We focus on the Sunyaev-Zeldovich flux-cluster mass relation ( Y SZ ), the scatter in which affects inference of cosmological parameters from cluster abundance data. Using SR on the data from the IllustrisTNG hydrodynamical simulation, we find a new proxy for cluster mass which combines M ), the scatter in which affects inference of cosmological parameters from cluster abundance data. Using SR on the data from the IllustrisTNG hydrodynamical simulation, we find a new proxy for cluster mass which combines Y SZ and concentration of ionized gas ( c gas ): M ∝ Y conc by ∼20 - 30% for large clusters ( 3/5 ≡ Y SZ 3/5 (1 - A c is robust against variations in cosmology, subgrid physics, and cosmic variance. Our results and methodology can be useful for accurate multiwavelength cluster mass estimation from upcoming CMB and X-ray surveys like ACT, SO, eROSITA and CMB-S4.gas ). Y conc reduces the scatter in the predicted M by ∼20 - 30% for large clusters ( M ≳ 10 14 h -1 M ⊙ ), as compared to using just Y SZ . We show that the dependence on c gas is linked to cores of clusters exhibiting larger scatter than their outskirts. Finally, we test Y conc on clusters from CAMELS simulations and show that Y conc is robust against variations in cosmology, subgrid physics, and cosmic variance. Our results and methodology can be useful for accurate multiwavelength cluster mass estimation from upcoming CMB and X-ray surveys like ACT, SO, eROSITA and CMB-S4.

Published

2023