Beteiligung an „Cells in Motion“

  • Projekt FF-2015-07: Mechanobiologie, Mathematische Modellierung und Simulation von Kräften während Gewebedifferenzierung (Maja Matis, Mario Ohlberger, Angela Stevens, Projektlaufzeit: 07/2015 - 06/2017)
  • Publikationen im Forschungsschwerpunkt „Zelldynamik und Bildgebung“

    2019

    Begemann I, Saha T, Lamparter L, Rathmann I, Grill D, Golbach L, Rasch C, Keller U, Trappmann B, Matis M, Gerke V, Klingauf J, Galic M. Mechanochemical self-organization determines search pattern in migratory cells. Nat. Phys. 2019;15: 848-857. Abstract

    2018

    Singh A, Saha T, Begemann I, Ricker A, Nusse H, Thorn-Seshold O, Klingauf J, Galic M, Matis M. Polarized microtubule dynamics directs cell mechanics and coordinates forces during epithelial morphogenesis. Nat Cell Biol 2018;20: 1126-1133. Abstract

    2017

    Ebnet K, Kummer D, Steinbacher T, Singh A, Nakayama M, Matis M. Regulation of cell polarity by cell adhesion receptors. Semin Cell Dev Biol 2017Abstract

    2016

    Saha T, Rathmann I, Viplav A, Panzade S, Begemann I, Rasch C, Klingauf J, Matis M, Galic M. Automated analysis of filopodial length and spatially resolved protein concentration via adaptive shape tracking. Mol Biol Cell 2016;27: 3616-3626. Abstract

    2015

    Galic M, Matis M. Polarized trafficking provides spatial cues for planar cell polarization within a tissue. Bioessays 2015;37: 678-686. Abstract

    2014

    Galic M, Begemann I, Viplav A, Matis M. Force-control at cellular membranes. Bioarchitecture 2014;4: 164-168. Abstract
    Galic M, Tsai F-C, Collins SR, Matis M, Bandara S, Meyer T. Dynamic recruitment of the curvature-sensitive protein ArhGAP44 to nanoscale membrane deformations limits exploratory filopodia initiation in neurons. Elife 2014;3: e03116. Abstract
    Matis M, Russler-Germain DA, Hu Q, Tomlin CJ, Axelrod JD. Microtubules provide directional information for core PCP function. Elife 2014;3: e02893. Abstract