生物發育機制專題研究二 Jui-Chou Hsu
This is a course to discuss the latest advance in the field of cell and developmental biology using mice, Xenopus, Drosophila, and C elegans as model organisms.
(1) Pulsed contractions of an actin–myosin network drive apical constriction.
Nature 457, 49, 2009.
(2) Differential positioning of adherens junctions is associated with initiation of epithelial folding. Nature 484, 390, 2012
(3) Oscillation and Polarity of E-Cadherin Asymmetries Control Actomyosin Flow Patterns during Morphogenesis. Dev cell, 26, 162, 2013.
(4) Cortical F-actin stabilization generates apical–lateral patterns of junctional contractility that integrate cells into epithelia. Nature cell boil, 16, 167, 2014.
(5) Dynamic myosin phosphorylation regulates contractile pulses and tissue integrity during epithelial morphogenesis. J cell Biol. 206, 435, 2014.
(6) Actin dynamics modulate mechanosensitive immobilization of E-cadherin at adherens junctions. Nature cell boil. 16, 584, 2014.
(7) Apical constriction drives tissue-scale hydrodynamic flow to mediate cell elongation. Nature 508, 392, 2014.
(8) Radial intercalation is regulated by the Par complex and the microtubule-stabilizing protein CLAMP/Spef1. J cell Biol. 206, 367, 2014.
(9) CLASPs link focal-adhesion-associated microtubule capture to localized exocytosis and adhesion site turnover. Nature cell boil. 16, 558, 2014.
(10) Plasma membrane phosphoinositide balance regulates cell shape during Drosophila embryo morphogenesis. J cell Biol. 205, 395, 2014.