1. BetaII-Spectrin Gaps and Patches Emerge from the Patterned Assembly of the Actin/Spectrin Membrane Skeleton in Human Motor Neuron Axons

    This article has 15 authors:
    1. Nahir Guadalupe Gazal
    2. Maria Jose Castellanos-Montiel
    3. Guillermina Bruno
    4. Anna Kristina Franco-Flores
    5. Sarah Lépine
    6. Lale Gursu
    7. Ghazal Haghi
    8. Gilles Maussion
    9. Wolfgang E Reintsch
    10. Fernando D Stefani
    11. Agustín Anastasía
    12. Mariano Bisbal
    13. Ezequiel Axel Gorostiza
    14. Thomas M Durcan
    15. Nicolás Unsain
    This article has been curated by 1 group:
    • Curated by eLife

      eLife Assessment

      This valuable study characterizes the emergence of the membrane-associated periodic cytoskeleton (MPS) in the axons of human motor neurons derived from induced pluripotent stem cells. Super-resolution imaging of beta-II spectrin provides convincing evidence for the patterned assembly of spectrin-poor gaps and spectrin-rich MPS in the medial region of the axons and its enhancement by the kinase inhibitor staurosporine. The data advocates against gap formation by axonal degeneration or cytoskeleton disassembly in a continuous MPS. Instead, a continuous MPS may result from nascent MPS patches and their maturation, a model that would benefit from live imaging for validation.

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    This article has 10 evaluationsAppears in 1 listLatest version Latest activity
  2. Cell-to-cell signalling mediated via CO2: activity dependent axonal CO2 production opens Cx32 in the Schwann cell paranode

    This article has 5 authors:
    1. Jack Butler
    2. Lowell Mott
    3. Amol Bhandare
    4. Angus Brown
    5. Nicholas Dale
    This article has been curated by 1 group:
    • Curated by eLife

      eLife Assessment

      This manuscript describes convincing and very interesting findings that substantially advance our understanding of a major research question on the role of Cx32 hemichannels in the Schwann cell paranode. It provides an interdisciplinary integration of imaging, in silico approaches, and functional data. This important study proposes a new mechanism with profound physiological relevance and provides new insights into glial modulation of electrical conduction in sensory/motor myelinated nerves.

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    This article has 7 evaluationsAppears in 1 listLatest version Latest activity
  3. Functional Muscle Networks as Biomarkers of Post-Stroke Motor Impairment and Therapeutic Responsiveness

    This article has 6 authors:
    1. David O’Reilly
    2. Giorgia Pregnolato
    3. Andrea Turolla
    4. Pawel Kiper
    5. Ioannis Delis
    6. Giacomo Severini
    This article has been curated by 1 group:
    • Curated by eLife

      eLife Assessment

      This important work employed a recent functional muscle network analysis to evaluate rehabilitation outcomes in post-stroke patients. The research direction is relevant and supported by solid evidence from gross motor function assessment. The framework is a step toward standardized assessment of motor recovery in the rehabilitation process, but future studies would focus on linking functional recovery to muscle interaction biomarkers to provide more physiologically grounded interpretations.

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    This article has 11 evaluationsAppears in 1 listLatest version Latest activity
  4. Visual Working Memory Guides Attention Rhythmically

    This article has 3 authors:
    1. Jiachen Lu
    2. Yaochun Cai
    3. Xilin Zhang
    This article has been curated by 1 group:
    • Curated by eLife

      eLife Assessment

      This valuable study reports evidence that items maintained in working memory can bias attention in an oscillatory manner, with the attentional capture effect fluctuating at theta frequency. The study provides solid evidence that this dynamic attentional bias is associated with oscillatory neural mechanisms, particularly in the alpha and theta bands, as measured by EEG. The study will be relevant for researchers studying attention, working memory, and neural oscillations, particularly those interested in how memory and perception interact over time.

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    This article has 9 evaluationsAppears in 1 listLatest version Latest activity
  5. Head before heart: cognitive empathy emerges before affective empathy in the developing brain

    This article has 5 authors:
    1. Chiara Bulgarelli
    2. Paola Pinti
    3. Tessel Bazelmans
    4. Antonia Hamilton
    5. Emily J Jones
    This article has been curated by 1 group:
    • Curated by eLife

      eLife Assessment

      The authors have presented a study which addresses a recognised gap in the literature, the emergence of the neural correlates of cognitive and affective empathy in children; they introduce a task for measuring both positive and negative empathy in a relatively large group of children aged 3-5. The task was combined with functional near-infrared spectroscopy to examine brain regions involved in the task. The findings are interpreted as providing evidence for the earlier emergence of cognitive than affective empathy. The study represents a valuable contribution to understanding the development of cognitive function, but in its current form, the strength of support for the conclusion is incomplete due to limited support for the comparison to the adult literature and a need to more clearly justify the pre-selected brain regions, their links to empathy and the justification of the hypotheses.

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    This article has 3 evaluationsAppears in 1 listLatest version Latest activity
  6. FMRP Regulates Neuronal RNA Granules Containing Stalled Ribosomes, Not Where Ribosomes Stall

    This article has 9 authors:
    1. Jewel T-Y Li
    2. Mehdi Amiri
    3. Senthilkumar Kailasam
    4. Lily Drever
    5. Jingyu Sun
    6. Laura Bohorquez
    7. Nahum Sonenberg
    8. Joaquin Ortega
    9. Wayne S Sossin
    This article has been curated by 1 group:
    • Curated by eLife

      eLife Assessment

      Based on several lines of interesting data, the authors conclude that neuronal FMRP, which is associated with stalled ribosomes and mRNP granules, does not determine position on the mRNAs at which ribosomes stall. They instead propose a role in subsequent translational activation of arrested mRNAs. Supported by generally solid experimental data, the paper represents a valuable contribution to the field. The generality of these conclusions, particularly for neurons of different development stages and for different subtypes of mRNP granules, should become clear with future studies that replicate and extend this work.

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    This article has 10 evaluationsAppears in 1 listLatest version Latest activity
  7. Bayesian causal inference unifies perceptual and neuronal processing of center-surround motion in area MT

    This article has 4 authors:
    1. Gabor Lengyel
    2. Sabyasachi Shivkumar
    3. Gregory C DeAngelis
    4. Ralf M Haefner
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    • Curated by eLife

      eLife Assessment

      This manuscript represents a valuable contribution to understanding motion processing in the visual cortex. Based on a heterogeneous collection of previous empirical findings, the authors show that the diversity of tuning curves in the middle temporal (MT) area, in response to moving center-surround images, can be explained by Bayesian inference combined with neural sampling. The model rests on strong and solid assumptions about the prior and likelihood; independent evidence that neither of these factors is misspecified would strengthen the work.

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    This article has 3 evaluationsAppears in 1 listLatest version Latest activity
  8. Dual-feature selectivity enables bidirectional coding in visual cortical neurons

    This article has 19 authors:
    1. Nikos Karantzas
    2. Katrin Franke
    3. Konstantin Willeke
    4. Maria Diamantaki
    5. Kandan Ramakrishnan
    6. Hasan Atakan Bedel
    7. Pavithra Elumalai
    8. Kelli Restivo
    9. Paul Fahey
    10. Cate Nealley
    11. Tori Shinn
    12. Gabrielle Garcia
    13. Saumil Patel
    14. Alexander Ecker
    15. Edgar Y Walker
    16. Emmanouil Froudarakis
    17. Sophia Sanborn
    18. Fabian H Sinz
    19. Andreas Tolias
    This article has been curated by 1 group:
    • Curated by eLife

      eLife Assessment

      The authors combine a modeling approach, using a digital twin, with electrophysiological evidence in two species to assess the role of inhibition in shaping selectivity in the visual cortex. The results provide a fundamental advance beyond the classic view of sensory coding by proving compelling evidence that many neurons in visual areas exhibit dual-feature selectivity. Overall, the work compellingly showcases how in silico experiments can generate concrete hypotheses about neuronal coding that are difficult to discover experimentally.

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    This article has 7 evaluationsAppears in 1 listLatest version Latest activity
  9. Neural activity profiles reveal overlapping, intermingled subpopulations spanning area borders in mouse sensorimotor cortex

    This article has 3 authors:
    1. Sohrab Salimian
    2. Harrison A Grier
    3. Matthew T Kaufman
    This article has been curated by 1 group:
    • Curated by eLife

      eLife Assessment

      This fundamental study provides compelling evidence for the functional segregation of the sensorimotor cortex into precisely delineated areas, and highlights a rapid transition in functional properties at the boundaries between these areas. This result further confirms and extends recent work on the diversity of neural response specificities across cortical areas in the context of complex behavioral tasks. This work will be of interest to neuroscientists studying sensory-motor functions.

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    This article has 7 evaluationsAppears in 1 listLatest version Latest activity
  10. Two time scales of adaptation in human learning rates

    This article has 8 authors:
    1. Jonas Simoens
    2. Senne Braem
    3. Pieter Verbeke
    4. Haopeng Chen
    5. Stefania Mattioni
    6. Mengqiao Chai
    7. Nicolas W Schuck
    8. Tom Verguts
    This article has been curated by 1 group:
    • Curated by eLife

      eLife Assessment

      This study makes a valuable contribution to the understanding of meta-learning and its neural mechanisms by distinguishing two timescales of learning rate adaptation: rapid, within-block reductions and slower, location-specific, meta-learned adjustments. Behavioural data and computational modelling provide convincing evidence that individuals adjust learning rates both rapidly in response to uncertainty and more gradually through meta-learning of environmental statistics. Neuroimaging results indicate that meta-learned learning rates are represented in orbitofrontal cortex, and that prediction errors are encoded across a distributed network including the ventral striatum, where they are modulated by expectations about error magnitude. The manuscript is timely and clearly written and opens the door to future work on how these signals contribute to adaptive behaviour.

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    This article has 7 evaluationsAppears in 1 listLatest version Latest activity
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