Evaluated articles

eLife assessment

This manuscript presents a valuable framework and blueprint for the study, in artificial systems, of the principles and mechanisms that underlie proprioception in biological systems. Using artificial neural networks trained on synthetic hand movement data, the authors present solid, albeit incomplete, evidence that action recognition can explain important features of the mechanisms that underlie proprioception in biological systems. Experiments with architectures trained using losses that, in addition to action, take into account velocity and/or other states, could strengthen the authors' findings.

eLife assessment’

This paper is of interest to a broad audience of cell biologists, and researchers who work with cultured endothelial cells. The work uncovers the impact of culture conditions on transcriptional changes of endothelial cells and demonstrates that some of these changes can be recovered by sheer forces or coculture. The authors provide valuable datasets which will be a good resource for the community.

eLife assessment

This manuscript provides a valuable and policy-relevant contribution to our understanding of SARS-CoV-2 viral kinetics in the Omicron era. The authors exploit a rich and unique dataset from the National Basketball Association to describe post-infection viral kinetics and explore evidence for differential kinetics by immune history and demographics. The authors show (as others have) that most people remain with high viral loads 5 days post positive test (though less so in groups who are tested in a more realistic manner), and that older individuals and those who were boosted (but had a poor initial response to the primary vaccine series) were more likely to remain with high viral loads longer after an Omicron infection, while also describing rebound frequencies after Omicron infections.

eLife assessment

In peripheral nerve injury, an immune response occurs to ensure debris clean-up and potential repair, however, there has not yet been a census of cell types and gene expression as these lesions undergo clearance and eventual repair. Zhao et al generate a transcriptional resource by performing scRNAseq on both the naive, injured, and repairing sciatic nerve. They identify the composition of different cell types, gene signatures, and cell-cell communication and contrast these with signatures from the blood, and compare the injured site with distal nerve segments after injury. To dissociate the immune response from injury versus Wallerian degeneration, they use SARM1 KO mice (which exhibits delayed neurodegeneration) and observe that there is still injury-induced immune influx. Overall, this is a convincing study and useful resource for the field of neuronal repair and neural-immune interactions with a clear presentation of the animals and time points, with some follow-up experiments and validation.

eLife assessment

This manuscript uses large-scale neural imaging and network models to show how spontaneous dynamics emerge in such ensembles and how such activity influences behavior. It is a strong addition to the field for explaining many of the observed neural activity patterns and their heterogeneities.

eLife assessment

This paper will be of interest to scientists working on cilia, intraflagellar transport, and structural modeling. Using an integrative modeling approach, the paper provides a fundamental structural model for a part of the molecular machinery that is responsible for cilium assembly. However, additional approaches would improve confidence in the as yet incomplete structure model.

eLife assessment

The authors present very exciting findings on the cranial bone defect repair using cutting-edge multiphoton imaging to study the role of different vessel subtypes and related oxygen and metabolic microenvironments. The study used microscopy to visualize the oxygen distribution and energy metabolism within the defects at different time points during the process of bone healing. This allows one to understand the pathophysiological progressions of bone diseases and regeneration. It will also provide critical information to optimize the therapeutic bone healing and regeneration approach for different clinical situations.

eLife assessment

This paper is an important contribution to the microglia field and will be of interest to a broad readership in the fields of neurobiology, cell biology and immunology. This work describes fundamental mechanisms of efferocytosis by microglia and uses impressive imaging in zebrafish, in combination with molecular manipulations, to provide compelling data of how centrosome movements synchronize with phagocytic cup formation during microglial efferocytosis of neuronal corpses in vivo.

eLife assessment

This paper is of interest for somatosensory neurobiologists studying how polymodality is achieved in peripheral sensory neurons. The work identifies roles in cold nociception and not mechanosensation in chloride transport for a number of ion channels.

eLife assessment

Wang, Carlson, and colleagues investigate sensory adaptations in the fruit pest Drosophila suzukii, which prefers ripe over overripe fruit. This study focuses on changes in sensory pathways for sugars and food texture, which may contribute to ecological shifts. Several interesting physiological and molecular adaptations are observed in D. suzukii, but it remains unclear whether these observed changes account for behavioral changes.

eLife assessment

The manuscript makes a fundamental contribution to our understanding of sugar release by symbiotic dinoflagellates, and is of broad interest for the fields of ecology, marine biology, and cell biology. The experiments, which combine algal culture with targeted metabolomics, transcriptomics and the application of inhibitors, provide substantial, though not entirely complete evidence for an acidic environment mimicking conditions reported for the intracellular organelle that hosts the symbiotic algae, leading to upregulation of algal cellulases, which in turn degrade the algal cell wall and thereby releasing glucose and galactose that can be used as a source of food by the coral host. This is a new idea and could significantly contribute to our understanding of photosymbiosis.

eLife assessment

Using a genetically controlled experimental setting, the authors find that the lack of Polycomb-dependent epigenetic programming in the oocyte and early embryo influences the developmental trajectory through gestation in the mouse. By showing a two-phase outcome of early growth restriction followed by enhancement, the authors address previous inconsistencies in the field. However, the link with placenta function and gene misregulation is not yet fully supported.

eLife assessment

This work addresses the mechanisms of action of the transmembrane proteins TMEM87A and TMEM87B, which are thought to play a role in protein transport, but have been implicated in other processes as well, such as signaling and acting as mechanosensitive ion channels. The study represents an important advance of the understanding of this poorly characterized family of proteins. While the structure is of low resolution, it is well interpreted, and authors take good advantage of AlphaFold2 to gain insights into potential function. The work is of interest to colleagues studying transporters and ion channels.

eLife assessment

This paper is of particular interest to researchers who plan to use focused-ion beam scanning electron microscopes (FIB-SEMs) and require fluorescent data to guide the milling process. The authors describe a valuable after-market upgrade that allows fluorescent data acquisition during FIB-milling without stage repositioning. Technical details of the fluorescent module upgrade together with the sample stage redesign are compellingly documented and will enhance the implementation of this important technology.

eLife assessment

This important paper uses advanced imaging approaches to explore how Piezo1 distributes on surface red blood cells. The study provides compelling evidence that this molecule 'reads' the membrane curvature and clear support for the force-through-membrane model of mechanosensation.

eLife assessment

SARS-CoV-2 nonstructural protein (Nsp1) has emerged as an attractive target as it plays an important role in modulating the host and viral gene expression. This study describes multiple druggable sites in Nsp1. A 1.1Å co-crystal structure of Nsp1 with a fragment, together with computational studies, provides a framework for the rational design of potential antiviral candidates. This important study is methodologically convincing and will be of interest to researchers in the fields of structural virology and rational drug design.

eLife assessment

Conditional deletion and reactivation of a gene in situ remain challenging, and this study therefore addresses a gap in the genetic tool box. The authors introduce a reversible conditional gene inactivation and reactivation method using sequential expression of recombinases, with doxycycline treatment terminating gene transcription, while doxycycline and tamoxifen addition restore gene expression.

eLife assessment

This manuscript will be of broad interest to those working in the genetics of complex diseases, with the results strongly supporting the author's primary claims. Overall, this is an important study that demonstrates the power of proteomics-based systems genetics studies in the mouse.

eLife assessment

This study addresses a fundamental question about the origin and evolution of selfish genetic elements, focusing on the paradoxical abundance of toxin-antidote elements in selfing Caenorhabditis species. The authors propose for the C. elegans peel-1 zeel-1 locus fitness advantages; if these the findings can be supported with additional data, they will be of considerable interest to the field due to their wider implications for the evolution of such systems.

eLife assessment

The authors report results from experiments and modeling that study the motions of molecules in the dense and dilute phases of biomolecular condensates, with the key finding that molecules in the dense phase of condensates formed by folded domains appear to switch between a confined state with low apparent diffusivity and a mobile state with a high apparent diffusivity that is comparable to that of molecules in the dilute phase. The study provides experimental evidence that is suggestive of phase separation coupled with percolation as the operative mechanism that gives rise to biomolecular condensates.