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    1. Physics of Living Systems

    Theory of active self-organization of dense nematic structures in the actin cytoskeleton

    Waleed Mirza, Marco De Corato ... Marino Arroyo
    Theoretical and computational modeling reveals a mechanism of active patterning of uniform isotropic actin gels into dense nematic bundles, providing a physical basis for the adaptability of the actin cytoskeleton.
    1. Neuroscience
    2. Physics of Living Systems

    Sub-surface deformation of individual fingerprint ridges during tactile interactions

    Giulia Corniani, Zing S Lee ... Hannes P Saal
    Sub-surface imaging demonstrates that vertical shear beneath fingertip ridges enables high mechanical spatial resolution to support tactile sensing.
    1. Physics of Living Systems

    Revealing global stoichiometry conservation architecture in cells from Raman spectral patterns

    Ken-ichiro F Kamei, Koseki J Kobayashi-Kirschvink ... Yuichi Wakamoto
    Revised
    Reviewed Preprint v2
    Updated
    • Fundamental
    • Compelling
    1. Ecology
    2. Physics of Living Systems

    Colony demographics shape nest construction in Camponotus fellah ants

    Harikrishnan Rajendran, Roi Weinberger ... Ofer Feinerman
    Revised
    Reviewed Preprint v3
    Updated
    • Important
    • Convincing
    1. Physics of Living Systems

    Collective epithelial migration mediated by the unbinding of hexatic defects

    Dimitrios Krommydas, Livio Nicola Carenza, Luca Giomi
    Revised
    Reviewed Preprint v2
    Updated
    • Important
    • Compelling
    1. Physics of Living Systems

    Emergent periodicity in the collective synchronous flashing of fireflies

    Raphael Sarfati, Kunaal Joshi ... Orit Peleg
    Fireflies that gather in swarms synchronize their flashing with rhythmic periodicity and provide insights into a new mechanism for the emergence of synchrony and periodicity.
    1. Physics of Living Systems

    Quantifying the shape of cells, from Minkowski tensors to p-atic orders

    Lea Happel, Griseldis Oberschelp ... Axel Voigt
    Only rigorous mathematical tools to quantify the shape of cells can guarantee reliable results in coarse-grained descriptions of tissue dynamics.
    1. Microbiology and Infectious Disease
    2. Physics of Living Systems

    Repeated vaccination with homologous influenza hemagglutinin broadens human antibody responses to unmatched flu viruses

    Yixiang Deng, Melbourne Tang ... Daniel Lingwood
    Classical antibody boosting effects during vaccination are accompanied by natural broadening mechanisms that help enable human antibodies to engage conserved sites of vulnerability on influenza virus.
    1. Cell Biology
    2. Physics of Living Systems

    The titin N2A-MARP signalosome constrains muscle longitudinal hypertrophy in response to stretch

    Robbert van der Pijl, Jochen Gohlke ... Coen Ottenheijm
    Not revised
    Reviewed Preprint v1
    • Important
    • Solid
    1. Physics of Living Systems
    2. Structural Biology and Molecular Biophysics

    Roles of the membrane-binding motif and the C-terminal domain of RNase E in localization and diffusion in E. coli

    Laura Troyer, Yu-Huan Wang ... Sangjin Kim
    Single-molecule imaging uncovers how distinct membrane-binding motifs and the intrinsically disordered C-terminal domain control RNase E’s membrane association and diffusion, linking structural divergence to RNA-processing dynamics in bacteria.
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