Browse the search results

Page 2 of 142
    1. Computational and Systems Biology
    2. Developmental Biology

    Modelling the emergence of whisker barrels

    Sebastian S James et al.
    Whisker barrels provide clues about neocortical development, as computer modelling shows that barrels can self-organize, based on competition between adjacent thalamocortical axons, suggesting that genetic instruction plays a secondary role.
    1. Cell Biology
    2. Physics of Living Systems

    Principles of self-organization and load adaptation by the actin cytoskeleton during clathrin-mediated endocytosis

    Matthew Akamatsu et al.
    An experimentally constrained multiscale mathematical model predicts that branched actin networks self-organize at endocytic sites and bend to produce force, which was verified with cryo-electron tomography of intact cells.
    1. Developmental Biology
    2. Neuroscience

    Achieving functional neuronal dendrite structure through sequential stochastic growth and retraction

    André Ferreira Castro et al.
    An optimal wire and function trade-off emerges from noisy growth and stochastic retraction during Drosophila class I ventral posterior dendritic arborisation (c1vpda) dendrite development.
    1. Cell Biology

    Micron-scale geometrical features of microtubules as regulators of microtubule organization

    Nandini Mani et al.
    Micron-scale geometrical features of individual microtubule polymers and polymer networks encode information that guides the self-organization of microtubules into specialized structures for diverse cellular functions such as cell division and signaling in eukaryotic cells.
    1. Biochemistry and Chemical Biology
    2. Cell Biology

    The packing density of a supramolecular membrane protein cluster is controlled by cytoplasmic interactions

    Elisa Merklinger et al.
    A hierarchical model explains the self-organization of membrane microdoomaims.
    1. Microbiology and Infectious Disease
    2. Physics of Living Systems

    Resource plasticity-driven carbon-nitrogen budgeting enables specialization and division of labor in a clonal community

    Sriram Varahan et al.
    Sufficient aspartate drives specialization within a microbial colony, when some cells use it to create a limited carbon-resource, while other cells consume this resource and use aspartate for nucleotide synthesis.
    1. Physics of Living Systems

    Design of biochemical pattern forming systems from minimal motifs

    Philipp Glock et al.
    Theoretical analysis and in vitro reconstitution of a biological reaction-diffusion system identify key functional motifs as well as underlying principles and enable rebuilding pattern formation in a modular fashion.
    1. Neuroscience

    The self-organization of grid cells in 3D

    Federico Stella, Alessandro Treves
    A computational model for the formation of neural networks of grid cells in virtual bats suggests that the highly ordered networks presumed to support spatial navigation in two dimensions cannot be routinely established in three-dimensional space.
    1. Developmental Biology
    2. Stem Cells and Regenerative Medicine

    Zebrafish embryonic explants undergo genetically encoded self-assembly

    Alexandra Schauer et al.
    Blastoderm tissue organization and patterning in zebrafish explants is driven by a genetically encoded and controlled self-assembly mechanism, rather than a bonafide self-organization mechanism.
    1. Developmental Biology
    2. Stem Cells and Regenerative Medicine

    Spatiotemporal mosaic self-patterning of pluripotent stem cells using CRISPR interference

    Ashley RG Libby et al.
    Dynamic control of intrinsic pluripotent multicellular self-organization to yield robust symmetry breaking patterns that recapitulate morphogenic processes associated with developmental events.