3 results found
    1. Cell Biology
    2. Developmental Biology

    Matrix metalloproteinase 14 is required for fibrous tissue expansion

    Susan H Taylor et al.
    The membrane type I-matrix metalloproteinase is essential for the release of collagen fibrils from plasma membrane fibripositors, which is required for the transition from embryonic to postnatal tendon development.
    1. Developmental Biology

    A structure-based extracellular matrix expansion mechanism of fibrous tissue growth

    Nicholas S Kalson et al.
    Tendon fibroblast cells lay down a collagen matrix template during embryogenesis, and the expansion of this matrix drives post-natal tissue growth.
    1. Cell Biology
    2. Developmental Biology

    Mechanical force regulates tendon extracellular matrix organization and tenocyte morphogenesis through TGFbeta signaling

    Arul Subramanian et al.
    Perturbation of mechanical force at muscle attachments and its effects on tendon morphogenesis provides insights into the mechanisms underlying cellular responses to tensional force and resulting extracellular matrix production.

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