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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
    Revised
    Reviewed Preprint v2
    Updated
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    1. Evolutionary Biology
    2. Physics of Living Systems

    Magnetotactic bacteria optimally navigate natural pore networks

    Alexander P Petroff, Julia Hernandez ... Nina Radchenko-Hannafin
    Diverse magnetotactic bacteria are adapted to the local geomagnetic field and grain size to maximize their swimming speed through the pore space.
    1. Physics of Living Systems

    Transport kinetics across interfaces between coexisting liquid phases

    Lars Hubatsch, Stefano Bo ... Frank Jülicher
    Not revised
    Reviewed Preprint v1
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    1. Physics of Living Systems

    Salmonids elicit an acute behavioral response to heterothermal environments

    Robert Naudascher, Stefano Brizzolara ... Roman Stocker
    Revised
    Reviewed Preprint v2
    Updated
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    1. Physics of Living Systems

    The cytoplasm of living cells can sustain transient and steady intracellular pressure gradients

    Majid Malboubi, Mohammad Hadi Esteki ... Guillaume Charras
    Revised
    Reviewed Preprint v2
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    1. Chromosomes and Gene Expression
    2. Physics of Living Systems

    Criticality-driven enhancer-promoter dynamics in Drosophila chromosomes

    Gautham Ganesh, Jean-Bernard Fiche ... Julien Mozziconacci
    Not revised
    Reviewed Preprint v1
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    1. Structural Biology and Molecular Biophysics
    2. Physics of Living Systems

    Detecting directed motion and confinement in single-particle trajectories using hidden variables

    François Simon, Guillaume Ramadier ... Lucien E Weiss
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    Reviewed Preprint v2
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    1. Cancer Biology
    2. Physics of Living Systems

    Differential interfacial tension between oncogenic and wild-type populations forms the mechanical basis of tissue-specific oncogenesis in epithelia

    Amrapali Datta, Phanindra Dewan ... Medhavi Vishwakarma
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    Reviewed Preprint v1
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    1. Cell Biology
    2. Physics of Living Systems

    Epithelial cell chirality emerges through the dynamic concentric pattern of actomyosin cytoskeleton

    Takaki Yamamoto, Tomoki Ishibashi ... Tatsuo Shibata
    Molecular chirality of actomyosin induces cell-scale chiral rotation without requiring a chiral arrangement of actomyosin filaments, revealing a key mechanism of cell chirality underlying left–right asymmetric tissue development.
    1. Physics of Living Systems

    Viral commitment to infection depends on host metabolism

    Anastasios Marantos, Kim Sneppen ... Namiko Mitarai
    Not revised
    Reviewed Preprint v1
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