果蠅發育特論          Jui-Chou Hsu
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<br>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.
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<br>(1)	Mechanical force regulates integrin turnover in Drosophila in vivo. Nature Cell Biol. 14, 935-943, 2012.
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<br>(2)	Reconstitution of clathrin-coated bud and vesicle formation with minimal components.  Nature Cell Biol. 14, 634-639, 2012.
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<br>(3)	Rocket launcher mechanism of collaborative actin assembly defined by single-molecule imaging.  Science 336, 1164-1168, 2012.
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<br>(4)	Actin network architecture can determine myosin motor activity.  Science 336, 1310-1314, 2012.
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<br>(5)	Planar cell polarity links axes of spatial dynamics in neural-tube closure.  Cell 149, 1084-1097, 2012.
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<br>(6)	Planar polarized protrusions break the symmetry of EGFR signaling during drosophila bract cell fate induction.  Developmental Cell 23, 503-518, 2012. 
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<br>(7)	α-catenin and IQGAP regulate myosin localization to control epithelial tube morphogenesis in Dictyostelium. Developmental Cell 23, 533-546, 2012.
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<br>(8)	Distinct Roles of Talin and Kindlin in Regulating Integrin alpha5beta1 Function and Trafficking.  Current Biol. 22, 1554-1563, 2012.
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<br>(9)	Drosophila Src regulates anisotropic apical surface growth to control epithelial tube size.  Nature Cell Biol. 14, 518-525, 2012.
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<br>(10)	Centralspindlin and α-catenin regulate Rho signaling at the epithelial zonula adherens.  Nature Cell Biol. 14, 818-828, 2012.
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<br>(11)	Growing Microtubules Push the Oocyte Nucleus to Polarize the Drosophila Dorsal-Ventral Axis.  Science 336, 999-1003, 2012.
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