Biophysics

  1. Molecular dynamics simulations illuminate the role of sequence context in the ELF3-PrD-based temperature sensing mechanism in plants

    1. Richard J Lindsay
    2. Rafael Giordano Viegas
    3. Vitor BP Leite
    4. Philip A Wigge
    5. Sonya M Hanson

    • Curated by eLife

      eLife Assessment

      In this potentially valuable computational study, the authors conducted extensive atomistic and coarse-grained simulations to probe the temperature-dependent phase behaviors of ELF3, a disordered component of the evening complex in plant. The results aim to highlight the role of polyQ tracts in modulating temperature-responsive structural and condensation behavior. Despite considerable improvements in the revised manuscript, the level of evidence is considered incomplete, since several of the supplementary observables introduced to support the revised claim indicate that the variants studied are not statistically distinguishable within the reported replicate uncertainty.

    Reviewed by eLife

    8 evaluationsAppears in 1 listLatest version Latest activity

  2. Multiscale effects of perturbed translation dynamics inform antimalarial design

    1. Leonie Anton
    2. Wenjing Cheng
    3. Meseret T. Haile
    4. David W. Cobb
    5. Xiyan Zhu
    6. Leyan Han
    7. Emerson Li
    8. Anjali Nair
    9. Carolyn L. Lee
    10. Hangjun Ke
    11. Guoan Zhang
    12. Emma H. Doud
    13. Chi-Min Ho

    Reviewed by Rapid Reviews Infectious Diseases

    5 evaluationsAppears in 1 listLatest version Latest activity

  3. Lenacapavir-induced Lattice Hyperstabilization is Central to HIV-1 Capsid Failure at the Nuclear Pore Complex and in the Cytoplasm

    1. Arpa Hudait
    2. Ryan C Burdick
    3. Ellie K Bare
    4. Vinay K Pathak
    5. Gregory A Voth

    • Curated by eLife

      eLife Assessment

      This study investigates how the HIV inhibitor lenacapavir influences capsid mechanics and interactions with the nuclear pore complex. It provides important insights into how drug-induced hyperstabilization of the viral shell can compromise its structural integrity during nuclear entry. The modeling is technically sophisticated, and the analyses provide convincing support for the mechanistic conclusions.

    Reviewed by eLife

    12 evaluationsAppears in 1 listLatest version Latest activity

  4. Conformational Variability of HIV-1 Env Trimer and Viral Vulnerability

    1. Yiwei Cao
    2. Wonpil Im

    • Curated by eLife

      eLife Assessment

      In this valuable study, the authors conducted an impressive amount of atomistic simulations with a glycosylated HIV-1 envelope glycoprotein (Env) trimer in a realistic asymmetric lipid bilayer. The aim was to probe how Env transmembrane domain, cytoplasmic tail, and membrane environment influence ectodomain orientation and antibody epitope exposure. The simulations convincingly show that ectodomain motion is dominated by tilting relative to the membrane and explicitly demonstrate the role of membrane asymmetry in modulating the protein conformation and orientation. Additional analyses of the authors' deposited MD trajectories could serve as invaluable extensions of this work to probe, for example, for exposure of cryptic epitopes and potential allosteric coupling.

    Reviewed by eLife

    10 evaluationsAppears in 1 listLatest version Latest activity

  5. Collective directional memory controls the range of epithelial cell migration

    1. Helena Canever
    2. Hugo Lachuer
    3. Quentin Delaunay
    4. François Sipieter
    5. Nicolas Audugé
    6. Philippe P Girard
    7. Nicolas Borghi

    • Curated by eLife

      eLife Assessment

      The authors make the valuable observation that directional memory during epithelial cell migration is enhanced compared to single-cell migration. They attribute this effect to adherens junctions and vinculin dimerization. In the work, central measures should be defined more precisely, and the support for their claims about the roles of adherens junctions and vinculin dimerization in memory enhancement remains incomplete.

      [Editors' note: this paper was previously reviewed by another journal.]

    Reviewed by eLife

    5 evaluationsAppears in 1 listLatest version Latest activity

  6. RNA Selectively Modulates Activity of Virulent Amyloid PSMα3 and Host Defense LL-37 via Phase Separation and Aggregation Dynamics

    1. Bader Rayan
    2. Eilon Barnea
    3. Rinat Indig
    4. Christian F Pantoja
    5. Jesse Gayk
    6. Yael Lupu-Haber
    7. Alexander Upcher
    8. Amir Argoetti
    9. Jacob Aunstrup Larsen
    10. Alexander K Buell
    11. Markus Zweckstetter
    12. Meytal Landau

    • Curated by eLife

      eLife Assessment

      This study presents valuable findings on the differential effects of RNA on the phase separation, aggregation dynamics, and bioactivity of PSMα3 and LL-37. The authors provide solid evidence from complementary biophysical and cell-based experiments that RNA influences peptide assembly and associated in vitro activities. The study is of interest for understanding interactions between amyloidogenic peptides and nucleic acids, although the physiological significance and some aspects of the mechanistic interpretation would benefit from further clarification.

    Reviewed by eLife

    9 evaluationsAppears in 1 listLatest version Latest activity

  7. When can AlphaFold predict the oligomeric states of proteins?

    1. Yiechang Lin
    2. Ciara Wallis
    3. Ben Corry

    Reviewed by PREreview

    1 evaluationAppears in 1 listLatest version Latest activity

  8. Sarcomere dynamic instability and stochastic heterogeneity drive robust cardiomyocyte contraction

    1. Daniel Haertter
    2. Lara Hauke
    3. Til Driehorst
    4. Kengo Nishi
    5. Wolfram-Hubertus Zimmermann
    6. Christoph F Schmidt

    • Curated by eLife

      eLife Assessment

      This important study provides a detailed characterization of individual sarcomeres' contractility and of their synchrony in spontaneously beating cardiomyocytes derived from human induced pluripotent stem cells. The combination of high-resolution tracking, statistical analysis and mesoscopic modeling leads to compelling evidence that sarcomeres operate as dynamically unstable units, leading to stochastic heterogeneities in their contraction-elongation cycles depending on substrate stiffness. The work will be relevant to scientists interested in muscle biophysics, nonlinear dynamics and synchronization phenomena in biological systems.

    Reviewed by eLife

    9 evaluationsAppears in 1 listLatest version Latest activity

  9. Universal length fluctuations of actin structures found in cells

    1. Aldric Rosario
    2. Shane G McInally
    3. Predrag R Jelenkovic
    4. Bruce L Goode
    5. Jane Kondev

    • Curated by eLife

      eLife Assessment

      This is a theoretical analysis that gives compelling evidence that length control of bundles of actin filaments undergoing assembly and disassembly emerges even in the absence of a length control mechanism at the individual filament level. Furthermore, the length distribution should exhibit a variance that grows quadratically with the average bundle length. The experimental data are compatible with these fundamental theoretical findings, but further investigations are necessary to make the work conclusive concerning the validity of the inferences for filamentous actin structures in cells.

    Reviewed by eLife

    7 evaluationsAppears in 2 listsLatest version Latest activity

  10. Inorganic phosphate in Arp2/3 complex acts as a rapid switch for the stability of actin filament branches

    1. Jiu Xiao
    2. Rebecca Pagès
    3. Guillaume Romet-Lemonne
    4. Antoine Jégou

    Reviewed by Review Commons

    8 evaluationsAppears in 1 listLatest version Latest activity
Page 1 of 96 Next