Pages that link to "Q52110584"

The following pages link to PKCgamma regulates syndecan-2 inside-out signaling during xenopus left-right development. (Q52110584):

Displaying 48 items.

• Heparan sulfate proteoglycans: a sugar code for vertebrate development? (Q26781120) (← links)
• A unified model for left-right asymmetry? Comparison and synthesis of molecular models of embryonic laterality (Q27008303) (← links)
• Salient features of the ciliated organ of asymmetry (Q27022052) (← links)
• Phosphorylation of NG2 proteoglycan by protein kinase C-alpha regulates polarized membrane distribution and cell motility (Q28289670) (← links)
• Hippi is essential for node cilia assembly and Sonic hedgehog signaling (Q28506946) (← links)
• Comparative genomics of the syndecans defines an ancestral genomic context associated with matrilins in vertebrates (Q28768923) (← links)
• Two populations of node monocilia initiate left-right asymmetry in the mouse (Q29617071) (← links)
• Rapid differential transport of Nodal and Lefty on sulfated proteoglycan-rich extracellular matrix regulates left-right asymmetry inXenopus (Q30428500) (← links)
• Low frequency vibrations disrupt left-right patterning in the Xenopus embryo (Q30474571) (← links)
• The ATP-sensitive K(+)-channel (K(ATP)) controls early left-right patterning in Xenopus and chick embryos. (Q30496547) (← links)
• Analysis of the asymmetrically expressed Ablim1 locus reveals existence of a lateral plate Nodal-independent left sided signal and an early, left-right independent role for nodal flow (Q33582701) (← links)
• Functional role of syndecan-1 cytoplasmic V region in lamellipodial spreading, actin bundling, and cell migration (Q33911116) (← links)
• PLD1-dependent PKCgamma activation downstream to Src is essential for the development of pathologic retinal neovascularization. (Q34122706) (← links)
• RGD-independent cell adhesion via a tissue transglutaminase-fibronectin matrix promotes fibronectin fibril deposition and requires syndecan-4/2 α5β1 integrin co-signaling (Q34401105) (← links)
• Activation of cytosolic phospholipase A2 downstream of the Src-phospholipase D1 (PLD1)-protein kinase C γ (PKCγ) signaling axis is required for hypoxia-induced pathological retinal angiogenesis (Q35063138) (← links)
• Early, H+-V-ATPase-dependent proton flux is necessary for consistent left-right patterning of non-mammalian vertebrates (Q35104639) (← links)
• Left-Right Asymmetry: Nodal Cilia Make and Catch a Wave (Q35560820) (← links)
• Heparan Sulfate Core Proteins in Cell-Cell Signaling (Q35582990) (← links)
• Syndecans: proteoglycan regulators of cell-surface microdomains? (Q35611355) (← links)
• Calcium at fertilization and in early development (Q35822230) (← links)
• The embryonic origins of left-right asymmetry (Q35850837) (← links)
• Syndecan-2 induces filopodia and dendritic spine formation via the neurofibromin-PKA-Ena/VASP pathway (Q36118445) (← links)
• Kinome-wide decoding of network-attacking mutations rewiring cancer signaling (Q36278233) (← links)
• Do we know anything about how left-right asymmetry is first established in the vertebrate embryo? (Q36287982) (← links)
• Genetics of human heterotaxias (Q36298333) (← links)
• Left-right asymmetry and congenital cardiac defects: getting to the heart of the matter in vertebrate left-right axis determination (Q36313478) (← links)
• Serotonin has early, cilia-independent roles in Xenopus left-right patterning. (Q36486059) (← links)
• Mathematical model of morphogen electrophoresis through gap junctions (Q36512368) (← links)
• Gap junctional communication in morphogenesis (Q36539510) (← links)
• Anteriorward shifting of asymmetric Xnr1 expression and contralateral communication in left-right specification in Xenopus (Q36936122) (← links)
• Differential roles for 3-OSTs in the regulation of cilia length and motility (Q37124609) (← links)
• Sdc2 and Tbx16 regulate Fgf2-dependent epithelial cell morphogenesis in the ciliated organ of asymmetry (Q37178010) (← links)
• Xenopus, an ideal model system to study vertebrate left-right asymmetry (Q37390067) (← links)
• It's never too early to get it Right: A conserved role for the cytoskeleton in left-right asymmetry. (Q37548748) (← links)
• Far from solved: A perspective on what we know about early mechanisms of left–right asymmetry (Q37804719) (← links)
• Are there conserved roles for the extracellular matrix, cilia, and junctional complexes in left-right patterning? (Q38199467) (← links)
• Cilia in vertebrate left-right patterning (Q39002179) (← links)
• Syndecan-1 expression in epithelial cells is induced by transforming growth factor beta through a PKA-dependent pathway (Q40261681) (← links)
• Syndecan-2 is expressed in the microvasculature of gliomas and regulates angiogenic processes in microvascular endothelial cells (Q40297851) (← links)
• Dvr1 transfers left-right asymmetric signals from Kupffer's vesicle to lateral plate mesoderm in zebrafish (Q41866341) (← links)
• Analyzing the role of heparan sulfate proteoglycans in axon guidance in vivo in zebrafish. (Q42368562) (← links)
• Syndecan 3 intramembrane proteolysis is presenilin/gamma-secretase-dependent and modulates cytosolic signaling (Q44592816) (← links)
• ALK4 functions as a receptor for multiple TGF beta-related ligands to regulate left-right axis determination and mesoderm induction in Xenopus (Q44828936) (← links)
• Motor protein control of ion flux is an early step in embryonic left–right asymmetry (Q47610863) (← links)
• Syndecan-2 cytoplasmic domain up-regulates matrix metalloproteinase-7 expression via the protein kinase Cγ-mediated FAK/ERK signaling pathway in colon cancer (Q47933451) (← links)
• Syndecan-2 regulates transforming growth factor-beta signaling (Q50335740) (← links)
• Syndecan-2 downregulation impairs angiogenesis in human microvascular endothelial cells (Q61918715) (← links)
• Localization and loss-of-function implicates ciliary proteins in early, cytoplasmic roles in left-right asymmetry (Q80972845) (← links)