Evaluated articles

eLife Assessment

This valuable study presents a tool that uses brain anatomy to predict the layout and size of early visual maps, and it is strengthened by the use of a large and diverse collection of scans to examine differences across people and groups. The evidence is solid for the general usefulness of the approach, but incomplete for some of the broader claims about prediction accuracy and use across data sets, particularly for estimates of map size and for showing that the model improves on repeated functional measurements. This paper is likely to be of significant interest to visual perception researchers, especially those who use fMRI.

eLife Assessment

Fujita et al. examine the effects of AM-2099, a Nav1.7 inhibitor, on the excitability of human dorsal root ganglion neurons and compare these results to their prior study of Nav1.8 inhibition by suzetrigine. They show that the Nav1.7 inhibitor primarily alters action potential threshold and initiation, but not repetitive firing, whereas Nav1.8 inhibition elicits much stronger inhibition on repetitive firing. These complementary roles of Nav1.7 and Nav1.8 provide a plausible cellular explanation for the limited clinical success of Nav1.7 inhibitors compared to Nav1.8 inhibitors for chronic pain. While the conclusions are important and solid, there are some key shortcomings that should be addressed to strengthen the study.

eLife Assessment

This short report is an important study that visual acuity declines nonlinearly with cone dropout, while eye motion partially compensates by improving sampling from remaining cones. The method for experimentally simulating cone dropout is compelling, leveraging state-of-the-art imaging and testing in human subjects. Inclusion of additional analysis on absolute cone density and eye motion would further strengthen the study.

eLife Assessment

This valuable study analyses correlations between traits of Chinese frog species and their Red List status, finding differences between adults and larvae and thus pointing to the importance of considering different life-cycle stages in this and possibly other animal groups when assessing species extinction risks. The current study is, however, incomplete because of unclear threat categories for tadpoles, the omission of other key species traits, and insufficient statistical analysis.

eLife Assessment

This work provides a fundamental advance through a detailed and integrative analysis of how the tsetse fly feeds on blood, demonstrating that successful penetration depends on subtle structural adaptations rather than extreme forces or unusual anatomy. By combining high-resolution imaging, innovative biomechanical measurements, and experiments on artificial skin, the study offers complementary and compelling evidence, with clear data supporting a robust mechanistic interpretation. These findings have broad significance as they clarify the biomechanics of vector feeding with implications for the transmission of diseases such as African trypanosomiasis across diverse hosts.

eLife Assessment

This useful work addresses a longstanding question of how the extant genetic code came to be selected and conserved almost universally across life. Using a mutational approach and a small set of reporters, the authors demonstrate that the mutational impact was similar for non-standard genetic codes. Considering the limitations of the approach, the data are incomplete in supporting the claim of having provided 'experimental verification of the error minimization theory'.

eLife Assessment

This important study highlights how cell size influences various cellular responses, with a particular focus on ferroptosis. The evidence presented is convincing, employing multiple model systems and experimental approaches to support the conclusions. This work will be of significant interest to the fields of cell size, ferroptosis, and cancer biology.

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

eLife Assessment

This study investigates the role of the Z-disc protein Zasp52 in Drosophila flight muscles and provides evidence that an intrinsically disordered region (IDR) helps to stabilize and promote the localization of the protein to the Z-disc. Overall, this represents an important study that provides insights into Z-disc function and maintenance. The data are convincing, supported by strong genetic evidence and behavioral tests, well-controlled experiments, and detailed statistical analyses. Additional functional analyses designed to tease out specialized regions within the newly described isoform of Zasp52 would further strengthen models regarding the function of the protein.

eLife Assessment

This important study identified Mex3a protein with dual RNA-binding protein/ubiquitin ligase function as a pivotal regulator of olfactory sensory neurons (OSN) differentiation and lineage fidelity. The authors employed a combination of systems biology approaches (e.g., single-cell RNA sequencing, proteomics) and newly developed animal models (e.g., HyperTRIBE) to provide solid evidence that abrogation of Mex3a disrupts cilia structure and polarity of OSNs. Notwithstanding that this article is of a broad potential interest across different biomedical disciplines ranging from RNA to developmental biology, additional mechanistic data connecting identified Mex3a mRNA targets and ensuing OSN phenotypes would further strengthen this study.

eLife Assessment

This is an important study uncovering a new role of the SETD6-PPARγ axis in the regulation of hepatic lipid metabolism. The data convincingly demonstrate that methylation of PPARγ by SETD6 plays a key role in this process, linking lysine methylation to transcriptional control of lipid storage genes.

eLife Assessment

In this useful manuscript, Yang et al attempt to show that platelet recruitment to the liver via macrophages contributes to APAP-induced liver injury, but there were many areas where the data supporting the conclusions were incomplete. For example, the idea that platelets only affected KC glycolysis, but not the metabolism of other cells, to mediate the phenotype after injury is not adequately supported by the evidence. It is recommended to perform additional experiments to strengthen the conclusions.

eLife Assessment

This study presents a useful database resource containing protein conformations generated through molecular dynamics simulations, with extensive quality evaluation and benchmarking. While the database is well-constructed and professionally organized, the evidence supporting its claimed representation of protein conformational landscapes is incomplete, as the short simulation times and starting structure bias prevent true Boltzmann sampling of the conformational space.

eLife Assessment

This study provides valuable insights into mitochondrial cristae organization in Plasmodium falciparum, particularly in the context of its divergent MICOS composition. The authors present convincing evidence, supported by phenotypic and morphological analyses, that cristae junction maintenance can be uncoupled from de novo cristae formation, reinforcing an emerging model of mitochondrial inner membrane organization. Notably, the absence of Mic10 alongside an enlarged and divergent MICOS complex highlights an intriguing evolutionary adaptation, although further characterization of the complex would strengthen the study's overall significance.

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

eLife Assessment

This study provides valuable insights into how cells maintain sphingolipid homeostasis through transcriptional control and regulated protein degradation in response to changes in sphingolipid levels. The evidence supporting the conclusions is convincing overall, with solid genetic and biochemical approaches, while some mechanistic aspects remain to be clarified. This work will be of interest to researchers studying lipid metabolism and membrane biology.

eLife Assessment

This study presents important findings on the molecular mechanisms governing how the natural killer cell receptor KIR2DL4 interacts with HLA-G and undergoes internalization. The authors provide solid evidence for an allosteric disulfide-bond switch that regulates receptor activity, using a multifaceted approach that includes mutagenesis, mass spectrometry, and imaging. The work would be further strengthened by validating these mechanisms in primary immune cells and providing direct structural evidence for the proposed ligand-binding interface.

eLife Assessment

This study provides a useful demonstration that, at least for the systems examined, aspects of the entropic contribution to protein-ligand binding can be inferred directly from crystallographic data. In doing so, it strengthens a view of crystal structures as heterogeneous ensembles that are amenable to statistical-mechanical analysis rather than purely static models. The analytical approaches are carefully developed and transparently discussed, with thoughtful consideration of both successful and less effective methods, lending solid support to the central conclusions. However, because the analysis is based on a relatively small and narrowly sampled set of protein-ligand complexes, the generality of these findings remains speculative and will require broader validation.

eLife Assessment

This study provides important insights regarding the temporal dynamics of dopamine across sleep/wake transitions in several brain areas. Using multi-site fiber photometry combined with EEG/EMG recordings, the study revealed heterogenous dynamics across both cortical and several subcortical areas. Although the evidence for these observations is solid, evidence for the proposed mechanisms driving DA dynamics is incomplete. Overall, the study may have a substantial impact on several fields working on the neurobiology of DA signaling.

eLife Assessment

This study provides direct and compelling evidence that lamellipodial protrusions dynamically adjust Arp2/3 complex incorporation in response to mechanical counterforces, while also modulating cellular responsiveness to upstream signals like Rac GTPase. By combining endogenous labeling, live-cell imaging, and optogenetic signaling activation, the work demonstrates how adhesion state and physicochemical perturbations reproducibly alter branched actin organization, offering a fundamental advance over previous works. The findings deliver significant insights that will resonate broadly with cell biologists and biochemists studying actin dynamics and mechanotransduction.

eLife Assessment

In this study, Yuan and colleagues perform transcriptomic and epigenomic experiments to study open chromatin regions and transcripts that change upon larval settlement in the sponge Amphimedon. The authors present compelling evidence to show that sponge larvae prepare for receiving an environmental cue (sunset) by extensively modifying their chromatin accessibility in the vicinity of genes that are going to be regulated during metamorphosis. The study represents a fundamental advance in understanding the fine genetic control of larval settlement and has significance beyond the immediate field of sponge larval biology.

eLife Assessment

The study presents important findings revealing previously unresolved conformational dynamics of the heterodimeric type IV ABC transporter TmrAB using single-molecule FRET. The evidence presented is solid, integrating careful experimental design with computational approaches to uncover states that are typically masked and difficult to detect. The work will be of interest to scientists studying the molecular mechanisms of primary active transport processes.