eLife assessment:

This important study describes converging cellular phenotypes in human neural progenitor cells derived from individuals with differing genetic forms of autism spectrum disorders. These convincing data demonstrate that altered mTOR signaling occurs in all cases of autism examined in the study, providing a common starting point for understanding the etiology of neuronal deficits in autism. The work will be of broad interest to neurobiologists especially those studying molecular mechanisms of brain development and disease.

eLife assessment

This important study presents an interesting example of how complexities of communities may be reduced by showing that the joint effects of two or more species on a focal species are generally not additive, but rather dominated by the strongest single effect. The evidence, enabled by over 14,000 measurements using nanodroplet-based microfluidics, is compelling, although the generality of the conclusion awaits further studies. This paper is of interest to microbial ecologists.

eLife assessment

The work of Caspy and coworkers resolves the cryo-EM structures of stacked and unstacked PSII supercomplexes of Dunaliella, revealing unexpected connectivity and conformational flexibility, with intriguing implications for the function and regulation of photosynthesis.

eLife assessment

This study uses top-notch spatial profiling methods to present a valuable account of the number of different neuron types in the central nucleus of the amygdala of the mouse. The approaches and evidence presented are compelling, but the analysis is incomplete and would benefit from increases in sample size. With this aspect strengthened, this paper would be of interest to neuroscientists investigating the function of the central amygdala.

eLife assessment

Here, Morgan and colleagues report a novel synthetic lethal interaction between nucleoporin inhibition and KRAS-driven hepatocyte hyperproliferation. The authors show that nucleoporin inhibitor treatment or heterozygosity of nucleoporin genes (ahctf1 and/or ranbp2) suppresses KRAS-driven zebrafish larval liver overgrowth, providing impetus for developing Nup inhibitors as hepatocellular carcinoma treatment. Their data provide insights into the consequences of nucleoporin inhibition in cancer, demonstrating that disrupting ahctf1 decreases proliferation and promotes apoptosis by impairing nuclear pore formation and mitotic spindle assembly through a mechanism that may be at least partially dependent on tp53.

eLife assessment

This study addresses whether the composition of the microbiota influences the intestinal colonization of encapsulated vs unencapsulated Bacteroides thetaiotaomicron, a resident micro-organism of the colon. This is an important question because factors determining the colonization of gut bacteria remain a critical barrier in translating microbiome research into new bacterial cell-based therapies. To answer the question, the authors develop an innovative method to quantify B. theta population bottlenecks during intestinal colonization in the setting of different microbiota. Their main finding that the colonization defect of an acapsular mutant is dependent on the composition of the microbiota is valuable and this observation suggests that interactions between gut bacteria explains why the mutant has a colonization defect. The evidence supporting this claim is currently insufficient. Additionally, some of the analyses and claims are compromised because the authors do not fully explain their data and the number of animals is sometimes very small.

eLife assessment

There is an urgent need to improve prognostication of diabetic kidney disease in different diverse populations so this study is valuable in identifying specific predictive factors in a cohort of South East Asian populations whose baseline risk is higher. There are some limitations: the assumptions the authors make and the methods would benefit from some more investigation/validation.

eLife assessment

This is an important study that shows how Snf1/AMP Kinase fine-tunes TORC1 signaling in response to glucose starvation. Their observation that Snf1 phosphorylation of the TORC regulator Pib1 and the TORC effector kinase Sch9 provides new mechanistic information on this important pathway involved in cell growth. The combination of phosphoproteomics, genetic, biochemical, and physiological experiments is generally convincing, although the results with the Pib2 SA and SE mutants are somewhat inconsistent.

eLife assessment

This fundamental study presents solid evidence for T1r (sweet /umami) taste receptors as chloride (Cl-) receptors, based on a combination of state-of-the-art techniques to demonstrate that T1r receptors from Medaka fish bind chloride and that this binding induces a conformational change in the heteromeric receptor. This conformational change leads to low-concentration chloride-specific action potential firing in nerves from neurons containing these receptors in mice, results that represent an important advance in our understanding of the logic of taste perception.

eLife assessment

This valuable study presents a potentially interesting contribution on animal caching behaviour. At present, evidence that the flying squirrels themselves modified the nuts is incomplete, but there are clear video observations of them associating with the nuts. Either way, the images of the modified nuts and the detailed descriptions of the caching behaviour describe a new technique for storing nuts in a tropical rainforest.

eLife assessment

This paper makes a valuable contribution to the area of balancing selection at the Major histocompatibility complex (MHC), including trans-species polymorphism between humans and other primates, by incorporating a large evolutionary range of species and genes and by using newer methodological approaches to characterize the depth and extent of the trans-species polymorphism across an expanded range of primate taxa. While the presented results solidly support the authors' conclusions, additional analyses would be needed to firmly exclude modes of evolution that could mimic trans-specific polymorphism.

eLife assessment

This valuable study substantially advances our understanding of the phenotypic divergence of the plague-causing bacterium, Yersinia pestis, from a closely related species, Yersinia pseudotuberculosis, which causes much milder disease. The authors provide convincing evidence that a frameshift mutation in the Y. pestis rcsD gene changes a signaling pathway that contributes to the flea-mammal transmission of plague. The work shows how small genetic differences can alter pathogenicity and stress survival.

eLife assessment

Exploiting the power of the Drosophila larva as a model, Liu et al.'s important study sheds light on the neuronal mechanisms of speed regulation during locomotion. The data obtained using a combination of functional and structural approaches are mostly rigorous and convincing, but there are concerns about the small number of animals analysed in some of the behavioural experiments.

eLife assessment

This important study offers compelling evidence, in the form of a rigorous and clear analysis of SARS-CoV-2 mutations observed within non-human animal hosts, of viral mutations that may provide an adaptive advantage within hosts. The authors could, however, improve the description of some elements of their methods and analysis approach, and they should cite additional relevant literature. The findings are relevant to those interested in the ecology of infectious disease, epidemiology, and specifically those who are interested in the genetic underpinnings of pandemic potential.

eLife assessment

This paper introduces a fundamentally new automated method for assigning cell types and distinguishing organs in electron microscope (EM) reconstructions, a process that was previously manual. The authors present compelling evidence that their approach works as well or better than human efforts, in at least one species. This new method can help avoid a known bottleneck in EM reconstructions, one that will otherwise limit the ability of EM to scale up to larger volumes and target additional animal species. The main limitation is that the method has only been tested on a single species, but if tests show similar performance on other animals, the method will likely become a mainstay of EM reconstruction efforts.

eLife assessment

This manuscript has a number of important findings in the interesting area of attempts to rescue neurodevelopmental phenotypes in the postnatal setting. Ameliorating some of the symptoms of Angelman syndrome at later stages is potentially of major clinical significance and this study provides support for that possibility. More generally, this study also shows that treatment of a syndrome like Angelman with antisense oligonucleotides to modulate allele-specific expression at later stages of life has potential.

eLife assessment

This manuscript presents a theory of generalization in neural population codes and proposes sample efficiency as a new normative principle distinct from efficient coding. The theory suggests that, with small numbers of training examples, generalization performance depends exclusively on the population code's 'kernel' (pairwise similarity between population activity patterns), and that sample-efficient learning depends on whether the task is aligned with the population's inductive bias (i.e., the top eigenfunctions of the kernel). The theory can be used to identify the set of 'easily learnable' stimulus-response mappings from neural data which makes strong behavioral predictions that can be easily evaluated.

eLife assessment

The authors present an important study of the effects of chronic hepatic FGF21 overexpression on the development of non-alcoholic steatohepatitis (NASH) in a model of obesity and dyslipidemia, i.e. ApoE3-Leiden CETP transgenic mice fed a western diet. NASH is a major global health problem and exogenous FGF21 treatment has been explored as a therapeutic strategy. The authors find that chronic overexpression of FGF21 blocks weight gain on the western diet, and even induces some weight loss compared to the control diet. The findings are convincing and methodologically sound.

eLife assessment

This manuscript provides a valuable resource for scientists who wish to manipulate second messengers in zebrafish using optogenetics. The authors provide solid evidence, based on behaviour, monitoring of heart beat and imaging, that several of the opsins tested can have an effect in larval fish. Opsins that lack an effect are also described. As the second messengers affected by the tools are found in multiple cell types, the results should be of interest of scientists working in a variety of areas.

eLife assessment

This work provides a potentially useful resource for scientists who wish to use optogenetics to manipulate GPCR signalling in larval zebrafish. It compares the physiological effects of different vertebrate and invertebrate rhodopsins expressed in either reticulospinal neurons or cardiomyocytes. The evidence for light-induced effects on behavior (either tail bending or heart beating) is solid, although only limited cell types and conditions are tested.

eLife assessment

In this important work, the authors develop a theory for the co-evolutionary dynamics of bacteria and phages, where the major evolutionary pressure comes from CRISPR-Cas adaptive immunity in bacteria. Through extensive stochastic numerical simulations and analytical calculations, the paper presents a compelling analysis of the emergent properties of immune interactions, in the regime of a single proto-spacer and a single spacer. Some of the trends highlighted by the model are recovered from experimental data. The main results concern how diversity in both phage and bacteria population are linked and are shaped by immunity, and should be of broad interest in immunology.

eLife assessment

This is a valuable paper that relates the function of Ephrin-B1 to diastolic dysfunction via its actions on maturation of cardiomyocytes. The mechanisms of diastolic heart failure remain poorly understood, and this work contributes to advancing our understanding. The hypothesis is novel and the manuscript is fairly extensive and well-illustrated. The data, methods and analyses are presented to the community in a solid manner. The work represents an interesting insight into potential mechanisms of diastolic dysfunction and heart failure with preserved ejection fraction.

eLife assessment

This manuscript is of interest to neuroimaging scientists and neurophysiologists studying the glymphatic system. Using a multi-modal approach including magnetic resonance and histological methods, this work provides substantial data interrogating the effect of removing of aquaporin-4 (AQP4) from the mouse brain parenchyma on the structural morphology and interstitial fluid dynamics stagnation. In particular, the authors provide evidence that deletion of AQP4 in mice results in increased interstitial volume, likely due to increased resistance to parenchymal CSF efflux.

eLife assessment

This valuable study describes the effects of endocrine therapy in a large series of Chinese patients treated with mastectomy (both efficacy and side effects). Whilst there are some caveats regarding the methodology (retrospective, small numbers of events, and some potential methodological bias in data collection) this is a solid piece of work and with further, ideally prospective data collection, has the potential to improve the management of patients with DCIS.

eLife assessment

In this valuable study, authors convincingly show that epistasis between mutations plays an important role in the evolution of broadly neutralizing influenza antibodies. Although the data are convincing, several parts of the manuscript require more accurate description.

eLife assessment

The study provides a fundamental framework for linking human genome variation to targetable mechanisms of disease. The authors provide compelling evidence that a strong candidate locus associates with body weight in humans acts through adipocyte MTIF3. Thus, the generalized approaches taken in this study have the potential to inform genetic association studies in general and lay a foundation for future functional genomics studies.

eLife assessment

How the pathogens Pseudomonas aeruginosa and Staphylococcus aureus compete and co-occur within opportunistic infections is a topic of broad significance, but the major drivers of these interactions remain unclear. Here the authors defined parameters that predict the coexistence of these microbes using their absolute growth in certain nutritional conditions, leading to questions about how other nutrients lead to the dominance of one or the other during infections. Within a confined context, this valuable study provides solid support for a novel framework in which to evaluate this clinically important species interaction.

eLife assessment

The authors provide novel evidence for a connection between fibroblast activation and eutherian stromal decidualization. This important work substantially advances our understanding of decidua biology and its contribution to pregnancy. The authors are using solid evidence to support the findings. The methodology includes in vivo mouse and human stroma cells is broadly supports the claims with only minor weaknesses.

eLife assessment

Authors provide valuable evidence identifying a lncRNA transcribed specifically in the pDC subtype from the +32Kb promoter region which is also the region for the enhancer for Irf8 specifically in the cDC1 subtype. With convincing methodology, they provide in-depth analysis about the possible role of lncIrf8, and its promoter region and cross-talk with Irf8 promoter to identify that it is not the lncIRF8 itself but its promoter region that is crucial for pDC and cDC1 differentiation conferring feedback inhibition of Irf8 transcription. The work will be of interest to immunologists working on immune cell development.

eLife assessment

Slusarczyk et al demonstrate that red pulp macrophages (RPM), specialized splenic cells that clear senescent red blood cells through erythrophagocytosis, show diminished function in aging mice. This impairment leads to retention of hemolytic red blood cells and formation of extracellular aggregates which further exacerbate RPM demise. Iron restriction alleviates most of these symptoms in aging RPMs. They propose RPM collapse as an early indicator of aging that could be reversed through iron limitation.

eLife assessment

This useful study highlights the contribution of the medial temporal lobe (MTL), and the DG/CA3 hippocampal pathway in particular, to neural activity during the working memory delay period. The evidence supporting this is compelling, using diverse state-of-the-art approaches to neural data analysis and relating it to behavioural data. The work will be of significant interest to neuroscientists specialising in the research area of human working memory.

eLife assessment

The authors present valuable findings about the mechanisms inducing IL-10 production by B cells in neonates. The evidence supporting the claims of the authors is solid, although the manuscript would be strengthened by amendments to the presentation of the data and explanation of some experimental choices.

eLife assessment

Using in-vivo proximity labeling using three different presynaptic proteins the authors have carried out a comprehensive proteome analysis of axonal dopamine release sites, resulting in the identification of many new presynaptic candidate proteins. Genetic deletion of the active zone protein RIM1 but not of the presynaptic calcium sensor synaptotagmin 1 resulted in a loss of enrichment indicative of a disruption of the active zone. Although the functional significance of many of the novel proteins will require future corroboration, the analysis provides a valuable and high-quality dataset as a starting point for future investigations.

eLife assessment

This paper describes a method for robust differentiation of the common marmoset induced pluripotent stem cells (iPSCs) into primordial germ cell-like cells and subsequently into spermatogonia-like cells when combined with testis somatic cells. The data suggest that marmosets are very similar to humans and macaques. The paper is nicely done but needs further characterization and a better explanation of the methodology.

eLife assessment

This fundamental work advances our understanding of how bacteria evolve to resist drugs used for cancer treatment and how this could potentially affect drug efficacy and treatment outcome. The data were collected and analyzed using a solid methodology and can be used as a starting point for functional studies of the interaction between microbiome interactions and cancer drug treatment. The findings will be of broad interest to microbiologists and organismal biologists interested in the role of microbiomes in drug responses.

eLife assessment

In this work, Monfared et al. construct a useful three-dimensional phase-field model for cell layers and use this to investigate the link of extrusion events to defects in cellular arrangement. The extension of existing 2D phase field models to three dimensions is an important contribution of this paper. Here the model is used to study the importance of cell-cell and cell-substrate interaction in extrusion from cell monolayers. Their claim that extrusion events can be distinctly linked to defects in nematic and hexatic orders in the monolayer need to be better justified to be fully convincing.

eLife assessment

Junctophilin has been traditionally known as a structural anchor to keep excitation-contraction proteins in place for healthy contractile function of skeletal muscle. Here the authors provide an interesting and important role in skeletal muscle for Junctophilin, where it translocates to the nuclei and influences gene transcription. The authors provide convincing evidence for a novel role of junctophilin beyond its structural role as a regulator of gene expression.

eLife assessment

The enrichment of Tfh17 cells in Tfh cell central memory compartment and the dominance of Tfh17 cell population and the Tfh17 transcriptional signature in circulating Tfh cells at the memory phase are nicely demonstrated, and may well be helpful for understanding the heterogeneity of memory Tfh cells and potentially providing clues for vaccine design. The in vitro differentiation system for mouse Tfh cells also provides a strategy for others to build upon in dissection of Tfh cell development and function.

eLife assessment

This important study addresses the ways in which bacteriophages antagonize or coopt the DNA restriction and/or recombination functions of the bacterial RecBCD helicase-nuclease. The evidence from both biochemistry and structural biology showing convergent evolution is convincing.

eLife assessment

This fundamental work advances our understanding of the cellular and molecular changes of the aged tendon. The evidence supporting the conclusion is convincing, using a DTR-based ScxLin cell depletion model along with state-of-art proteomic and scRNA-seq analyses. This paper is of potential interest to scientists and physicians who study the mechanisms of the tendon aging process.

eLife assessment

The author arrive at the convincing conclusion that STAT3 expression promotes TFIIIB assembly through miR-106A-5p-mediated inhibition of TP73 expression, thereby increasing Pol III transcription, which contributes to enhanced cell proliferation. The data are very good and clearly support the proposed model.

eLife assessment

This study presents the cryo-EM structure of the dynein regulator Lis1 bound to human dynein providing important insight into how these two proteins interact. The evidence supporting the claims of the authors is overall convincing though it requires some minor re-analysis. The work will be of interest to researchers working with motor proteins and neurodevelopmental disorders as it helps rationalize how mutations in Lis1 or dynein lead to disease.

eLife assessment

This manuscript generates a valuable new genetic resource for studying mosquitos and the pathogens that they carry. For 33 species of mosquitoes, the authors have sequenced and assembled the ribosomal RNA, which will dramatically improve the power of RNA sequencing in mosquitoes.

eLife assessment

Force generation by the myosin motor plays an important role during cell division. Myosin activity is regulated by phosphorylation, which activates myosin in animals but was thought to inactivate it in yeast. In this valuable study, the authors use a combination of convincing approaches to show that under some growth conditions, dependent on the carbon source of the growth medium, phosphorylation becomes essential for myosin function.

eLife assessment

The fundamental work by Starret et al advances the understanding of the etiological roles of viruses and other environmental factors in bladder cancers after solid organ transplantation. The evidence is compelling using cutting edge sequencing approaches of patient samples. This work will be immediately interesting to multiple fields (of viral oncogenesis, BK polyomavirus (BKPyV) and JC polyomavirus (JCPyV), solid organ transplantation and whole genome and transcriptome sequencing) and may eventually influence care after organ transplantation.

eLife assessment

This study addresses a fundamental question about the spatiotemporal location of neurotransmitter release in a synapse with essential implications for postsynaptic signaling and neural excitability in general. The authors provide convincing evidence on non-overlapping nanometer scale organization of the two primary forms of evoked vesicle fusion (synchronous and asynchronous) in the synapse. They utilize tools for super-resolution assessment of synaptic transmission that were previously developed in their lab, in this way they help bridge earlier work based on imaging approaches that lack temporal resolution and electrophysiological results lacking spatial resolution.

eLife assessment

This is an important and valuable paper that uses H2B overexpression to quantify changes to chromatin compaction using elegant in vivo imaging approaches in the live epidermis in stem cells undergoing epidermal differentiation. The results confirm in vitro findings that changes to chromatin compaction precede cell fate commitment during epidermal stem cell differentiation. These conclusions are mostly supported by solid and convincing experimental and quantitative evidence and the recapitulation of chromatin and transcriptional phenomena in a live tissue setting using careful in vivo imaging and quantification is of value.

eLife assessment

This manuscript details the valuable development of population genetics theory that can be used to infer past changes in the selfing rate in natural populations. The inference procedure is solid, although the comparison to previous estimates can be improved, and deeper insight could be gained from further theoretical exploration. The work will be of broad interest to the field of mating systems evolution.

eLife assessment

Based on a large set of complementary experiments, the authors propose that the lncRNA LNCSOX17 regulates human definitive endoderm differentiation, although its function is not related to the adjacent SOX17 gene in the same topological domain (TAD). The findings are important and supported by convincing data, although the molecular mechanism by which LNCSOX17 regulates endoderm differentiation stays unresolved.

eLife assessment

This fundamental study presents a crystal structure of two proteins catalyzing histone H2B ubiquitination. Findings from the structural study are further validated by mutagenesis and functional assays. This is a well-executed study providing useful information to the field.

eLife assessment

This important work provides knowledge regarding how neuropeptides, which are highly expressed in the brain, can influence cortical plasticity. The conclusions are supported by compelling evidence from both in vitro and in vivo assays, although some control experiments are needed to further strengthen the conclusions. This paper will be of interest to neuroscientists studying cortical processing and neural plasticity, as well as cell biologists and biochemists interested in peptide function in general.

eLife assessment

This fundamental study substantially advances our understanding of interactions of consecutive memory tasks by identifying responsible molecules and neurons. The evidence supporting the claims of the authors is generally solid, although further contextualization of the interferences in memory consolidation and more rigorous measurements of the effects of genetic manipulation would have strengthened the study. The work will be of broad interest to neuroscientists working on learning and memory as well as learning psychologists.

eLife assessment

In this study, the authors provide important findings supporting a key role for TLP2 as a regulator of neurotoxic and pro-inflammatory cytokine and chemokine release following acute and chronic neuroinflammation. They provide convincing data supporting that the abrogation of TPL2 kinase activity ameliorates disease pathogenesis in a mouse model of tauopathy. This manuscript will be of broad interest to readers in the fields of neuroimmunology and neurodegenerative disease who are interested in the pathogenic effects of innate immune signaling pathways in disease.

eLife assessment

Rett syndrome is one of the most frequently diagnosed neurodevelopmental conditions. The gene mutated in the condition, Mecp2, encodes for a transcriptional repressor, but genes functioning downstream of Mecp2 have remained difficult to clarify. Here the authors identify an important candidate gene, Growth Differentiation Factor 11 (GDF11) regulated by Mecp2 via epigenetic mechanisms. Further studies in mouse models demonstrate that genetic reduction of Gdf11 ameliorates behavioral deficits of Mecp2 duplication mice, and can function to produce neurobehavioral deficits in mice alone. These findings will be of interest to scientists working in mouse cognition, behavior, neurodevelopment, transcriptional and epigenetics.

eLife assessment

This study provides important new insights into iron sulfur biosynthesis in the human malaria parasite Plasmodium falciparum. The work is based on elegant and robust genetic approaches, and not only confirms the essentiality of the plastid-hosted Suf iron-sulfur cluster synthesis pathway, but also highlights an important additional role for the cysteine desulfurase SufS in apicoplast maintenance via tRNA modification. The work provides compelling evidence for a dual function of parasite SufS, although impact on tRNA has not been established directly. These findings reveal a potential new target for metabolic intervention, and will be of interest to researchers studying apicomplexan parasites, and more broadly, in the field of plastid biology.

eLife assessment

There are no known effective treatments available to date for the treatment of osteosarcomas, the earliest identified bone cancer that can spread to other tissues. In this study, the authors have used novel approaches to identify calreticulin and procollagen C-endopeptidase enhancer (PCOLCE) as osteosarcoma tumor suppressor proteins that inhibit osteosarcoma growth both in animal and in vitro cell culture models. These important findings may provide a basis for the future development of more efficient targeted therapies for the treatment of osteosarcomas.

eLife assessment

This is an important and significant study that focuses on deriving ovarian granulosa-like cells from hiPSC lines. The strengths of the study include bioinformatics analysis to identify relevant candidate transcription factors that drive the iPSCs into the ovarian granulosa pathway, an attempt to derive ovaroid model by combining human PGC-like cells with the iPSC-derived granulosa-like cells, and a variety of endpoint analysis including hormone measurements. Some limitations of the study include poor quality of images, lack of convincing demonstration that follicle-like structures are indeed derived in vitro, lack of clear rationale for using different cell lines with different endpoints chosen for analysis, and lack of clear methods indicating stepwise which transcription factors were used.

eLife assessment

Cover et al., examine the pathway from the intralaminar nucleus of the thalamus (rILN) to the dorsal striatum (DS) in the reinforcement of behavior/actions. The rILN sends a large glutamatergic projection to the DS, but its role in action selection was unknown. The authors found that the rILN neurons that project to the DS were activated at both action initiation and with the reward. Activation and inhibition of this pathway increased the success or decreased the success of reward acquisition, respectively. The findings are an important advance our understanding of the function of rILN to DS projection in reward-based behavior. The manuscript has provided convincing evidence with the appropriate methodologies to support these claims.

eLife assessment

This study presents a valuable finding in identifying the roles of the pericytes in maintaining vascular volume and integrity of spiral ganglion neurons (SGNs) in the cochlea, the main hearing organ. The evidence supporting the authors' claims is solid using an inducible and conditional pericyte depletion mouse model and the co-culture models. While the study provides a modest translational contribution, understanding the roles of organ-specific pericytes is paramount, making this study timely and significant. The work will be interesting for biomedical biologists working on hearing, blood vessels, signaling, and cell-to-cell interactions.

eLife assessment

Illingworth et al. investigate the effectiveness of ribavirin and favipiravir on the treatment of a paediatric patient with chronic RSV and identify an increase in mutations caused by ribavirin while favipiravir had no apparent mutagenic effect. Strength of evidence is incomplete for the mathematical model and solid for the mutational load analysis with potential for improvement in both cases with clarification of the methods. Major strengths are an interesting hypothesis and appropriate modeling methodology that will be of interest to virologists, clinicians and evolutionary biologists. Weaknesses in methodology pertain to mutational load measures possibly also capturing clonal expansion of new mutants and lack of clarity about how viral fitness is related to viral load in the mathematical model.

eLife assessment

This study presents the important finding of an unusual uncompetitive inhibitor (ECSI#6) of the serotonin transporter that removes the neurotransmitter serotonin from the synaptic cleft. Through careful and comprehensive analysis, the authors convincingly show that the molecule most likely binds to the inward-facing and K+-bound state and that it assists in folding and targeting the transporter. The work will be of interest to those engaged in biophysical analyses of the serotonin transporter, and colleagues developing pharmacological chaperoning strategies for transporters in general.

eLife assessment

In this important paper, the authors have developed an approach for simultaneously optimizing the conformational ensemble and degrees of oligomerization, and this has been tested by applying it to a specific protein (SPOP). Comparison of the quality of fits with different models also provides valuable insights into structural features important to the assembly of oligomers. The approach, presented with compelling experimental support, is potentially applicable to other systems as well.

eLife assessment

This valuable study combines live cell imaging and mathematical modeling to show how an emerging model fungus engages in an oscillatory chemical dialogue to prepare for cell-cell fusion. Cell data and modeling are in compelling agreement but leave many open questions as to the nature of coordination between cells and the significance of oscillations, rendering the strength of evidence in support of the authors' inferences incomplete.

eLife assessment

This is an important manuscript that provides support for the hypothesis that the relative increase in NIH funding matches the rate of overall inflation. The level of evidence is solid, and a clearer description of the analysis will further strengthen the manuscript. This paper should be of relevance to funders, investigators who are currently funded, and those who are seeking federal support.

eLife assessment

This paper will be of interest to developmental biologists who study the gene regulatory mechanisms necessary for neuronal identity and circuit assembly. The study presents important findings regarding the role of the LIM homeodomain transcription factor Isl2 in the development of spinal motor neurons. While the importance of Isl2 for the acquisition of axial and visceral motor neuron development was already described in the literature, the data convincingly describe an additional role in the differentiation of a subset of limb-innervating motor neurons.

!- summary of challenges : Nate's additional comments - complexity, fragility of global supply chains, global leader stuck on dangerous economic growth story

!- summary : current challenges - have to quickly build an entirely new system but... - fragile, expensive, low EROI, scarce energy - fragile financial system not fit for industrial reform - scarce and insufficient mineral resources - massive pollution stream - environmental degradation at all levels - unprecedented human population

eLife assessment

The authors demonstrate that patients with obesity-associated osteoarthritis and mice with the ApoE gene deficiency showed phenotypes of synovitis and enhanced macrophage infiltration in synovial tissues. Overall, this potentially important study is well-designed and carefully executed, although additional evidence is needed to fully support the authors' conclusions.

eLife assessment

This study reports an important new resource, MHC class I and MHC class II reporter mice, which provide a means to monitor MHC activation in vivo. The authors use these mice to study inflammatory demyelination in two mouse models of multiple sclerosis. The study provides a compelling demonstration of the new reporter lines as a valuable tool for analysis of inflammation and neurodegeneration.

eLife assessment

This manuscript presents a valuable new approach to modelling patterns of brain activity evoked by non-invasive brain stimulation, shedding light on how such stimulation drives neuronal dynamics. The performance of the model is impressive and its validity is supported by solid evidence. This work will be of interest to researchers working in computational neuroscience, neuroimaging, and non-invasive brain stimulation.

eLife assessment

This paper is valuable and of interest to scientists studying primary cilia/flagellar formation and regulation. It addresses how ciliary/flagellar length is controlled and whether calcium negatively regulates Intraflagellar transport (IFT) injection. The study convincingly demonstrates that calcium influx correlates with flagellar length, but calcium does not appear to work as a negative regulator of IFT injection, which challenges a previous model. The models and methods are generally sound, but some conclusions would be strengthened by additional experimental support.

eLife assessment

Why do fish school together? Energetic benefits have long been considered a key factor in motivating fish to swim together and tune their tail beat to exploit the whirling wake generated by conspecifics. This study clearly demonstrates that fish benefit from swimming in a two-dimensional vortical wake by locating their body in the vortical low-pressure zones that passively impart a net thrust force on their oscillating bodies. The behavioral and biofluid mechanical findings will interest comparative biomechanists, movement ecologists, evolutionary biologists, fluid mechanists, and bioinspired roboticists.

Another justification of the PageRank algorithm is that hyperlinks influence the index of a page. For example, if a page is referred to by multiple other pages (well cited), then it's deemed important and will have a higher PageRank.

It assumes there's a random user click on pages at random and not backtracking. The probability in the randomness is the PageRank.

The damping factor is the probability that the "random surfer" will get bored and move on to another page. The damping factor can personalize search results, making it difficult for people to manipulate the system in order to get a higher ranking.

Another goal of Google is a specification of the previous goal (improved search quality), as they want to create an improved searching experience for students.

The World Wide Web was originally created to facilitate academic research, and Google plans on creating a system that can support research activities as mentioned.

The biggest issue with previous Web Search engines, like the World Wide Web Worm and later Altavista was that they handled very limited queries per day. They ranged in the millions, starting from 2, 20, to 100m, which was expected because of the technology, but not the most efficient manner.

What Google proposes is the challenge of a search engine with efficient crawling technology, able to use storage efficiently, fast queries and sorting, etc. It's inevitable that the tasks will become harder as the demand for the Web increases, but Google is designed to be scaled to large data sets.

Improved search quality means that users searching can find exactly what it is they want. At the time, search engines weren't reliable and it was more than a myth for a search engine to find "almost anything on the Web".

eLife assessment

This important study advances our understanding of respiratory complex I. The authors present convincing structural data for the enzyme from Drosophila melanogaster although the interpretation of conformational states is still not conclusively settled. This work will be of interest to researchers studying respiratory enzymes, the evolution of respiration, and mitochondrial diseases.

eLife assessment

This manuscript will be of interest to both developmental biologists and neuroscientists. The data suggest that most (but not all) neuronal types are present in both Drosophila sexes, and the existence of mostly shared scSeq clusters suggests that sex-specific versions of the transcription factor Fruitless can modify neural function in a sex-specific way without completely altering core neural identity. This cell type gene expression atlas should prove valuable in future efforts to understand mechanisms of sex-specific development, as well as the molecular and developmental-genetic basis of sex differences in behaviour.

eLife assessment

The author customises an alpha-fold multimer neural network to predict TCR-pMHC and applies this to the problem of identifying peptides from a limited library, that might engage TCR with a known sequence from a limited list of potential peptides. This is an important structural problem and a useful step that can be further improved through better metrics, comparison to existing approaches, and consideration of the sensitivity of the recognition processes to small changes in structure.

eLife assessment

The ABC transporter ABCG2 extrudes chemotherapy reagents and other xenobiotics from a number of different tissues. How ABCG2 operates at the molecular level has been largely derived from structures and dynamics carried out in non-physiological environments. The paper presents convincing cell-based evidence describing the relationship between structural changes of ABCG2 and substrate binding using flow cytometry, confocal microscopy, and fluorescence-correlation spectroscopy methods. Both the mechanistic conclusions and methodology employed offer important insights, which will be of general interest to the biochemistry and transport biology communities.

eLife assessment

One must appreciate the challenges of antimicrobial stewardship in an immunocompromised population. This retrospective single-institution study provides support for the working hypothesis that initial procalcitonin levels might be used in cancer patients admitted with COVID-19 infection to omit, reduce, or de-escalate the need for empiric antimicrobial therapy. In the setting of a global pandemic, this is a common issue with COVID-19 patients in generally, but far more difficult in a cancer patient population. The results presented here support the authors' conclusions, however, future subgroup analysis of more specific scenarios among cancer patients with COVID-19 (e.g., neutropenia, active chemotherapy, and need for intensive care) are warranted.

eLife assessment

This study confirms a role of traditional cardiovascular risk factors (age, sex, cholesterol levels, weight) and polygenetic risk scores when predicting coronary heart disease in a large prospective cohort. It further reports an independent effect of seropositivity from past infection with a commensal bacterium F. nucleatum as a risk factor. The work is based on solid data and methodology and constitutes an important contribution to the understanding of disease risk, but the role of infection needs independent replication.

eLife assessment

Detailed electron-microscopy reconstructions of neurons, which are now available for a complete Drosophila central brain, raise the prospect of detailed models of their electrical properties. This manuscript uses a recently released dataset to model one particular neuron in an olfactory learning center of the fly brain. The model elucidates how this neuron responds to synaptic inputs that represent odor, suggesting how modification of these synapses might underlie olfactory memory. This work brings together electrophysiological recordings and neuroanatomical reconstructions from volume electron microscopy to model how a neuronal arbor integrates synaptic inputs. With the many ongoing connectome mapping projects world wide, the results here can illustrate an approach to interpretation of connectomes towards understanding neural circuit function. The rules of synaptic plasticity discussed here furthermore do not only shed light into the mechanisms of learning and memory in biological systems but also inspire the formulation of new approaches to adjusting connection weights in artificial neural networks.

eLife assessment

This study has looked at the 30-day mortality risk from COVID-19 in a large population of unvaccinated patients with and without cancer. Age and cancer were independent risk factors for death. In particular haematological malignancies and lung cancer presented the highest risk. These data add to the body of evidence regarding the risk of COVID-19 in patients with cancer. This manuscript is of broad interest to oncologists, internists, and infectious disease specialists in managing patients with COVID-19 and cancer.

eLife assessment

In this study, Diehl and Redish present a novel account of functional variability in the rodent medial prefrontal cortex. The authors report that, in general, the dorsal regions encode decision-related variables, whereas the ventral regions encode variables more linked to motivation, such as trial number in the session and amount of lingering time. Overall, the study is interesting, the experimental design is excellent, and the uniquely large neural data set is a strength. The suggestion of functional subdivisions in the prelimbic area is particularly provocative, and this conclusion, along with the data supporting it, will be of broad interest to those who study the anatomy and function of the rodent medial prefrontal cortex.

eLife assessment

The results of this work show a non-determinant effect of the COVID pandemic on the logistics of patient care from diagnosis to treatment modalities. The significance of this scoping review relates to the methodologic design of future outcome measures in cancer reporting that include time measurements between important clinical decision points or treatments in a standardized fashion. Without this standardization in reporting, comparisons to different length intervals are impossible and may have a significant impact on patient outcomes. The strength of the evidence is compelling, given the exhaustive nature of the literature review. This work should be seen by all oncologic units and research groups so that time benchmarks can be established that correlate to patient outcomes. These measurements require oncology society uptake and reporting to be effective.

eLife assessment

This useful theoretical and numerical study shows that evolution can stabilize predator and prey populations in a generalized Lotka-Volterra framework with high variance species-species interactions. It demonstrates an example of evolutionary bet hedging, rescuing species at risk of extinction due to destabilizing predator-prey interactions. The methodology is solid, but some modeling choices are quite specific, limiting direct applicability to concrete systems. The study should be useful to the community working on theoretical ecology and evolution, and the ecology-evolution coupling should resonate with a broader audience.

eLife assessment

This important manuscript investigates the circuitry connecting the galactose utilization regulon of the human pathogen and model organism Candida albicans to the sensing of galactose. In the non-pathogenic model yeast Saccharomyces cerevisiae this circuit represents a textbook model that rivals the lac operon as a teaching tool. Using a broad array of mainly classical approaches, this study convincingly demonstrates the transcriptional activators that are required for galactose (and GlcNAc) responsive galactose metabolic genes in C. albicans. The recognition of just how different the regulation of the galactose pathway across fungal species represents an important advance in our understanding of the evolution of the regulatory control of these circuits, and would make a nice addition to the textbook version of eukaryotic gene regulation.

eLife assessment

Oxidation regulation of neuronal Kv7 channels contributes to the regulation of brain excitability. The manuscript concludes that this regulation is due to a disruption of the interaction between the S2S3 linker of Kv7 with the CaM EF3 site. The proposed mechanism is potentially important, but there are several weaknesses with the presentation and interpretation of the data that need to be addressed.

eLife assessment

This study addresses several gaps that are evident with regards to cancer cell invasion in tissue. The approaches taken by this group encompassing mathematical modeling and experimental procedures are for the most part rigorous. The study is deemed as of high potential impact.

eLife assessment

This manuscript provides a solid and valuable analysis of the advantages and potential pitfalls of the application of Granger Causality to calcium imaging data that should be of interest to a wide range of neuroscience researchers. Granger Causality is a key tool in assessing the temporal relationships between variables, but one that is susceptible to many types of artifacts. The rigor of the authors' application of the methodology to calcium imaging data in particular leads to a more robust understanding of the effects of measurement artifacts and analysis choices on the results. There was some concern, however, about whether all of the findings would apply outside feedforward neural circuits and it was unclear how some of the results relate to others that currently exist in the literature.

eLife assessment

This paper presents a single-molecule polarization microscopy study aimed at monitoring the arginine/agmatine antiporter AdiC as it transiently exchanges between conformational states. This approach measures how a bis-TMR fluorophore anchored onto helix 6a changes its orientation in the microscope, and the authors identify four states that they propose correspond to the key steps in the transport cycle (inward-open, inward occluded, outward occluded and outward open). This is a cutting-edge and challenging approach that sets the stage for direct measurements of conformational equilibria and will thus be of interest to anyone studying transport mechanisms. However, additional investigation is required to validate the robustness of the post-processing of the single-molecule data to yield the four-state model compared to alternate models, to test the robustness of the data with transport mutants/conditions that would slow or eliminate states, and to consolidate transitions that are observed that conflict with previous observations of obligatory coupling in AdiC.

eLife assessment

The manuscript reports a new structure of the small conductance mechanosensitive channel MscS from E. coli in the open state, together with coarse-grained and atomistic molecular dynamics simulations of MscS and the related channel MSL1 of plant mitochondria in closed and open states. The important finding is that the surrounding lipid bilayer is severely distorted in the closed state only, with the protein inducing high curvature in the inner leaflet due to the membrane protruding into the cytoplasm. The authors argue convincingly that the role of membrane tension is to increase the energy of the protein-membrane system in this closed state compared to the relatively flat-membrane open state, in contrast to the previous proposal that tension-induced gating is driven by expansion of the in-plane area of the protein. The finding may be relevant for the understanding of ion channel mechano-sensation more generally, including of the PIEZO1 channel.

eLife assessment

This article presents a model that uses spike timing-dependent plasticity and theta phase precession of spiking neurons to generate representations similar to those learned by temporal difference learning to form successor representations. This work is important for bridging between biologically detailed mechanisms shown in experimental data and the more abstract models in the reinforcement framework literature. The simulations are compelling, but several aspects may rely on unrealistic assumptions, so further work is necessary to determine whether such a learning process could actually occur in the brain.

eLife assessment

This manuscript describes cell types in the head of the squid, Loligo vulgaris, through expression patterns of key genes identified in single cell transcriptomics. This topic is generally of great comparative interest. It will contribute to a better understanding of the cephalopod nervous and sensory systems, providing a basis for future comparative and evolutionary research.

eLife assessment

This study provides valuable findings about how brain machine interfaces cope with changes in context, an important consideration for deploying such devices in the real world. The evidence supporting the claims is solid although increasing the number and range of contexts investigated would have strengthened the study. The work will be of interest to motor neuroscientists and engineers developing brain machine interfaces and will be useful for future development of such devices.

eLife assessment

This fundamental work addresses the role of the mitotic kinase PLK-1 in meiosis, using C. elegans as a model system. The valuable findings are convincing and combine beautiful cell biology and biochemical assays. The work will be of broad interest to people working on Plk1 and/or in meiosis in many different systems.

eLife assessment

This is an important and methodologically compelling paper that reports the first application of optogenetics to inner hair cell ribbon exocytosis mechanisms in the inner ear and rapid flash-and-freeze techniques to a ribbon synapse. The conclusions of the paper are mostly well supported by the data and it will capture the interests of a broad audience of neurobiologists and sensory physiologists. Paired recordings of inner hair cells and afferents validate the optogenetic protocols of stimulation. A surprising finding is the nearly complete absence of docked vesicles at rest and after stimulation, but upon stimulation vesicles rapidly associate with the ribbon. The reviewers agreed that this is a high-quality study, but that some additional work is needed to address certain pitfalls of the methods used and to rule out alternative explanations of the data.

eLife assessment

This manuscript provides a successful model to study the ultrafast brain oscillation-mediated brain circuitry and cellular mechanisms in sensory processing. Utilizing this model, the authors studied potential cellular mechanisms that generate ultrafast oscillations (250-600Hz) in the cortex. These oscillations correlate with sensory stimulation and might be relevant for perceiving relevant sensory inputs. The data reasonably support most of the claims by the authors in this manuscript.

eLife assessment

This important paper provides a convincing mechanism for relative binding specificity of Type II inhibitors to kinases. The combination of a sequence-derived Potts-model with experimental dissociation constants and calculated free energies of binding to the DFG-out state is highly compelling and goes beyond the current state of the art. Given the importance of kinases in pathophysiological processes, the results will be of interest to a broad audience and, in addition, the combination of computational methods can be applicable to a wide variety of other biophysical processes that involve conformational rearrangements.

eLife assessment

This paper reports a useful set of results that uses a reduced network model based on a previously published large-scale network model to explain the generation of theta-gamma rhythms in the hippocampus. Combining the detailed and reduced models and comparing their results is a powerful approach. However, the evidence for the main claim that CCK+ basket cells play a key role in theta-gamma coupling in the hippocampus is currently incomplete.

eLife assessment

Powers and colleagues reveal that commonly used "genetic markers" (selectable cassettes that allow for genome modification) may lead to unintended consequences and unanticipated phenotypes. These consequences arise from cryptic expression directed from within the cassettes into adjacent genomic regions. In this work, they identify a particularly strong example of marker interference with a neighboring gene's expression and develop and test next-generation tools that circumvent the problem. The work will be primarily of interest to yeast biologists using these types of tools and interpreting these types of data.

eLife assessment

This manuscript provides compelling evidence that in response to calcium, the C-lobe of calmodulin changes its interaction with the C-terminal domain of an SK2 small-conductance calcium-activated potassium channel. These findings will be of interest to those in the field of ion channels and calcium signaling as they are valuable to understanding the molecular mechanics by which calcium activates SK2 channels, which are important for a wide variety of physiological signaling processes.

eLife assessment

This is an extremely thorough investigation of the role of cadherins in generating a functional motor circuit. The presented data support a model whereby combinations of redundant adhesion molecules create a code to wire the breathing circuit. This study advances understanding of the molecular basis of circuit wiring in the brain.

eLife assessment

This study models the predictions a listener makes in music in two ways: how different model algorithms compare in their performance at predicting the upcoming notes in a melody, and how well they predict listeners' brain responses to these notes. The study will be valuable to the field as it implements three contemporary models of music prediction. In a set of solid analyses, the authors find that musical melodies are best predicted by models taking into account long-term experience of musical melodies, whereas brain responses are best predicted by applying these models to only a few most recent notes.

eLife assessment

This fundamental study employs a publicly available dataset to examine the role of gamma oscillations in the coding of olfactory information in the mouse piriform cortex. The authors convincingly show that gamma originates in the piriform cortex, is driven by feedback inhibition, and that the time course of odour decoding is most accurate when gamma oscillations are strongest. This work is relevant to a wide audience interested in the mechanisms and role of oscillations in the brain, and nicely demonstrates the benefits of well-curated, publicly available datasets.

eLife assessment

This work would be of interest to global health scientists, particularly in low- and middle-income countries where childhood stunting is an ongoing challenge, and to statisticians interested in building clinical prediction rules. The authors leveraged large, rich datasets from multi-center studies to build and validate predictive models. But by using change in growth, rather than absolute growth, as the only outcome, it may be missing children of concern who are already experiencing growth failure and require intervention but have reached a growth faltering floor.

eLife assessment

This is a very interesting manuscript that will be of interest to the field of stress neurobiology and neuropsychiatry. Claims about the interactions between stress and medial prefrontal cortex NPAS4 on anhedonia and motivation remain to be firmly established, yet clear evidence is provided for NPAS4 function on medial prefrontal cortex pyramidal neuron dendritic morphology and gene expression.

eLife assessment

This valuable work, of interest to ion channel physiologists, identifies regions involved in the desensitization of the proton-activated chloride channel (PAC), a widely expressed ion channel involved in organelle pH homeostasis and acid-induced cell death. At the present stage the data only incompletely support the interpretations, and further experiments will be required to consolidate some of the authors' claims.

eLife assessment

This manuscript follows the still unanswered concept of 'original antigenic sin' and shows the existence of a 24-year periodicity of the immune response against influenza H3N2. The valuable work suggests a long-term periodicity of individual antibody response to influenza A (H3N2) within a city. But, to substantiate their argument, the authors would need to to provide additional supporting data.

eLife assessment

This paper provides valuable new insight into the neural encoding and behavioral tracking of visual objects in the Drosophila. It provides solid evidence that a specific type of neuron in the fly visual system (T3 neuron) is involved in the tracking of moving objects during flight. With additional experimental evidence to resolve whether T3 neurons function as local object detectors, this paper would be of broad interest to visual neuroscientists.

eLife assessment

This work presents a framework for estimating missing data on cervical cancer epidemiology. If properly validated, it could help determine missing data in regions where data are scarce. The work will be of broad interest to researchers and policymakers evaluating cervical cancer prevention measures.

eLife assessment

Masschelin et al. investigate the role of Vitamin B2 (riboflavin), an essential cofactor for FAD and FMN coenzymes involved in the electron transport chain and TCA cycle, in fasting glucose metabolism. This study phenotypes B2-deficient mice liver and provides valuable data on genes and metabolites that are changed with B2 depletion +/- Fenofibrate administration. The work employs solid methodology and will be of interest to liver physiologists interested in fasting in the context of PPAR.

eLife assessment

This manuscript will be of interest to a wide range of neuroscientists and clinicians employing imaging methods. Using a combination of cutting edge high resolution magnetic resonance protocols, the authors investigate the structure-function relationship of specialised compartments in the human cortex in vivo. Their results indicate different patterns of myelination across the "stripes" of visual area V2, but will require further independent validation with myelin staining in the human brain.

eLife assessment

This manuscript reports the response by cortical interneurons from mice expressing genetically defined fluorescent markers to sensory stimulation performed in awake animals without anesthesia. The data show in some cases distinct responses in specific neuron types. This manuscript contains unique information that will be valuable to other researchers in the field and influence future research in the field of cortical GABAergic neurons.

eLife assessment

Combining electrophysiology, site-directed mutagenesis, lipid pharmacology, and single particle cryo-electron microscopy, this study provides solid evidence identifying a site on the extracellular half of the transmembrane domain of Proton-Activated Chloride (PAC) channels that could be occupied by PIP2 and related lipids to promote channel desensitization. These findings are important because pharmacological information for these biologically relevant ion channels is absent.

eLife assessment

Myostatin KO is known to increase muscle mass, but can transplanting the gut microbiome from these animals also increase muscle mass and strength? Based on the experiments performed in this paper, the answer is yes, and the positive impact of myostatin deletion on the gut-muscle axis may proceed through alteration of gut bacterial metabolism, including short-chain fatty acids. This is important work and will contribute to the expanding field of the gut-muscle axis.

eLife assessment

This paper is an important contribution to the biological aging field using eye image data to create an aging clock of the retina in data from eyePACS with validation in the UK Biobank. The authors provide compelling evidence that the clock correlates with chronological and phenotypic age, predicting mortality independently of chronological age. The work identifies novel genetic loci with a top site located in the ALKAL2 region, which is functionally validated in a Drosophila model.

eLife assessment

The study by Ben Yaakov et al. describes a single cell analysis of the mammalian ovary in young, adult and old mice. Based on gene expression profiles, the authors identified cell clusters corresponding to immune cell populations in mouse ovaries and compared their abundance in aged compared to adult animals. In comparison with previous studies that used single cell RNAseq to characterize the heterogeneity of cell types in the ovary, this study focuses only on immune cells resulting in much better coverage to characterize the changes that these cells undergo as a function of age. The combination of single-cell RNA sequencing and flow cytometry used by the authors is a robust and unbiased approach to characterize immune cell alterations in aging ovaries. Overall, the data and analyses presented in this study reveal profound modifications of the immune system in the aging reproductive system in mice. However, while both the data and biology presented are quite interesting, this study is perhaps too wide in breadth such that no individual result is extensively and rigorously explored.

eLife assessment

Single-particle tomography (SPT) is a useful method to determine the structure of proteins imaged in situ. This important work presents an easy-to-use tool for SPT that approximates the use of 2D tomographic projections using a "pseudo-subtomogram" data structure, chosen to facilitate implementation within the existing Relion codebase. The examples shown provide solid support for the claims about the efficacy of the approach.