Evaluated articles

eLife assessment

The work is interesting in its characterization of a large number of antibiotic persisters from a wild-type strain. Previous work was typically limited to directly observe either high persister strains or a smaller number of wt persisters. Therefore, it sheds new light on the elusive non-dormant persisters present in exponentially growing cultures and should help resolve previous conflicting observations.

eLife Assessment

This important study shows that the Nora virus, a natural Drosophila pathogen that also persistently infects many laboratory fly stocks, infects intestinal stem cells (ISCs), leading to a shorter life span and increased sensitivity to intestinal infection with the Pseudomonas bacterium. The authors provide convincing data to support their conclusions. The paper provides new insights into virus-host interactions in the Drosophila gut and serves as a warning for scientists who use the fruit fly as a model to study gut physiology.

eLife Assessment

This important research addresses the effects of subjective control and task difficulty on experienced stress using a novel behavioral task in two, large online samples. Convincing evidence is provided, establishing internal and external task validity and a relationship with individual differences in relevant mental health constructs. Evidence for the core claims could be strengthened by disentangling the effects of controllability from those of reward rate and adjusting data parcellation for computing internal consistency. This work will be of interest to psychologists and clinicians studying controllability, stress, and psychopathology.

eLife Assessment

The manuscript provides valuable findings in the field for understanding the RNAi regulation in plants at the molecular level with a model of how DRB7.2 and DRB4 form a heterodimer and protect dsRNA from DICER activity. The presented data provide a solid basis for the model, but certain measurements could benefit from replicates for robust statistics.

eLife Assessment

In this manuscript, Franco and colleagues describe valuable findings about the chemotactic response of Salmonella to serine and indole, conflicting chemotactic signals. Although the evidence presented is solid, concerns were raised about the novelty of the chemotactic phenomena observed with these two compounds. Also, although the induction of invasion by feces is a novel and interesting finding, the lack of follow-up to this observation was also noted.

eLife Assessment

This solid work, a Research Advance linked to Buchwalter et al., 2019, demonstrates that epitope tagging influences protein fate, serving as a cautionary example of how different tagging and imaging strategies may alter the pattern of endogenous protein trafficking. The information presented will be useful for researchers in the field of membrane trafficking, particularly in guiding their experimental designs. That being said, the study offers limited new insights into the biogenesis or disposal of endogenous Emerin.

eLife Assessment

This potentially important model-based study seeks to mimic bat echolocation behavior and flight under high-density conditions. The simulations convincingly suggest that the problem of acoustic jamming in these situations may be less severe than previously thought, a finding that would be of broad interest to scientists working in the fields of bat biology and collective behaviour. However, some aspects of the manuscript were found to lack clarity and concerns were raised about some of the assumptions underlying the parameters used for the simulations, which impact both the modeling results and the conclusions that can be made from the data.

eLife Assessment

The authors propose that the kinase MARK2 regulates the Golgi's reorientation towards the cell's leading edge through the regulation of microtubule binding protein CAMSAP2 and its binding to USO1. While the model is interesting and the study is useful, the quantification of an insufficient number of cells and insufficient description of the methods and biological replicates mean the results are inadequate to support the model.

[Editors' note: this paper was reviewed by Review Commons.]

eLife Assessment

This study provides compelling evidence that kinesin's stepping mechanism is governed by strain-induced conformational changes in its nucleotide-binding pockets. Using pre-steady state kinetics and single-molecule assays, the authors demonstrate that the neck linker's conformation differentially modulates nucleotide affinity and detachment rates, establishing an asynchronous chemo-mechanical cycle that prevents simultaneous detachment. Supported by cryo-EM structural data, the work presents an important advance in our understanding of kinesin's hand-over-hand movement.

[Editors' note: this paper was reviewed by Review Commons.]

eLife Assessment

This valuable study uses state-of-the-art neural encoding and video reconstruction methods to achieve a substantial improvement in video reconstruction quality from mouse neural data, providing a convincing demonstration of how reconstruction performance can be improved by combining these methods. The findings showed that model ensembling and the number of neurons used for reconstruction were key determinants of reconstruction accuracy, but the theoretical contribution to understanding neural encoding was less clear. The treatment of how image masking improved reconstruction performance was also incomplete.

eLife Assessment

This study explores how complement protein C3 and its signalling may modulate immune training in alveolar macrophages. The findings are an important contribution to the field of trained immunity. The data presented is mainly solid, but incomplete in parts.

eLife Assessment

This manuscript provides valuable novel insights into the role of interpersonal guilt in social decision-making by showing that responsibility for a partner's bad lottery outcomes influences happiness. Through the integration of neuroimaging and computational modelling methods, and by combining findings from two studies, the authors provide solid support for their claims.

eLife Assessment

The manuscript by Mancl et al. provides valuable mechanistic insights into the conformational dynamics of Insulin Degrading Enzyme (IDE), a zinc metalloprotease involved in the clearance of various bioactive peptides. Supported by a convincing combination of cryo-EM, SEC-SAXS, enzymatic assays, and molecular dynamics simulations, the study characterizes the dynamic transitions between IDE's open and closed states in the presence of a sub-saturating concentration of insulin. This work contributes to a refined model of IDE's functional cycle, enhancing our understanding of its role in proteolysis.

eLife Assessment

This study provides a potentially useful investigation into the positive role of BDNF/TrkB signaling in implanted dental pulp stem cells to enhance dentin regeneration in the context of dental caries. Some of the key methods used need to be much better documented, and the data should be strengthened and added to in support of several of the claims of functional benefit, which are inadequately supported at present. Additional details for the validation of the reagents and techniques are needed to support the interpretation of the results.

eLife Assessment

The macromolecular organization of photosynthetic complexes within the thylakoids of higher plant chloroplasts has been a topic of significant debate. Using in situ cryo-electron tomography, this study reveals the native thylakoid architecture of spinach thylakoid membranes with single-molecule precision. The experimental methods are unique and compelling, providing important information for understanding the structural features that impact photosynthetic regulation in vascular plants and addressing several long-standing questions about the organization and regulation of photosynthesis.

eLife Assessment

This important contribution to the field demonstrates the role of a single transcription factor with cell-autonomous functions in the differentiation of two distinct neuronal populations in regulating the interactions between those cells in a non-autonomous manner to generate their final organized projection pattern. There are additional quantifications and controls that would enhance the convincing nature of the study and would raise the strength of the evidence from incomplete if they were performed.

eLife Assessment

This paper provides an important proposal for why learning can be much faster and more accurate if synapses have a fast component that immediately corrects errors, as well as a slower component that corrects behavior averaged over a longer timescale. It is convincingly shown that integrating these two learning timescales improves performance compared to classical strategies, particularly in terms of robustness and generalization when learning new target signals. However, the biological plausibility and justification for the proposed rapid learning mechanism require further elaboration and supporting mechanistic examples.

eLife Assessment

This important study aims to understand the role of endothelial cell differentiation into pericytes in the restoration of blood-brain barrier function after ischemic stroke. Identification of pericytes derived from endothelial cells and the involvement of myeloid cell-derived TGFβ1 signaling are compelling new findings, but the evidence supporting the origin and nature of these pericytes is incomplete and would benefit from more rigorous approaches demonstrating reproducibility. The work will be of interest to researchers whose work focuses on the blood-brain barrier and basic and translational stroke.

eLife Assessment

This manuscript introduces Opto-PKCε, an optogenetic tool that enabled important findings derived from interactome and phosphoproteome studies. Light-dependent recruitment of Opto-PKCε to the plasma membrane revealed the specific phosphorylation of the insulin receptor at Thr 1160. In turn, recruitment to mitochondria led to phosphorylation of the complex I subunit NDUFS4, correlating with reduced spare respiratory capacity. The evidence supporting these conclusions is solid, although additional clarification on data analysis would further enhance readability.