About: Activation of RalA is required for insulin-stimulated Glut4 trafficking to the plasma membrane via the exocyst and the motor protein Myo1c

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About: Activation of RalA is required for insulin-stimulated Glut4 trafficking to the plasma membrane via the exocyst and the motor protein Myo1c Goto Sponge NotDistinct Permalink

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rdf:type	Item
description	artículu científicu espublizáu en 2007 (ast) vědecký článek publikovaný v roce 2007 (cs) наукова стаття, опублікована у вересні 2007 (uk) 2007 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած (hyw) 2007 թվականի սեպտեմբերին հրատարակված գիտական հոդված (hy) مقالة علمية (نشرت في سبتمبر 2007) (ar) wetenschappelijk artikel (gepubliceerd op 2007/09/01) (nl) vedecký článok (publikovaný 2007/09/01) (sk) scientific journal article (en) im September 2007 veröffentlichter wissenschaftlicher Artikel (de)
publication date	wds:Q28505291-C07A191A-1F98-4758-A98E-C0D0BED40270
publication date	2007-09-01 00:00:00Z (xsd:dateTime)
language of work or name	wds:Q28505291-9C8EFB3A-A6C1-4D5B-8A7F-A50D012C4C28
language of work or name	English
author name string	wds:Q28505291-35ADE6FC-B767-4ED8-B5ED-174161FC1944 wds:Q28505291-4E0C1B57-B3D9-4717-90A0-81E01A8D2893 wds:Q28505291-75DA9A50-52BA-4095-9B23-999CE1579F19 wds:Q28505291-D479171E-C8B0-4823-966E-9D279CF18E4B
OpenCitations bibliographic resource ID	wds:Q28505291-D6D60C0D-100F-48E6-A1E7-CA33588B97CD
OpenCitations bibliographic resource ID	https://w3id.org/oc/corpus/br/3090906
author name string	Qian Wang Shian-Huey Chiang Xiao-Wei Chen Dara Leto
OpenCitations bibliographic resource ID	3090906
rdfs:label	Activation of RalA is required for insulin-stimulated Glut4 trafficking to the plasma membrane via the exocyst and the motor protein Myo1c (en) Activation of RalA is required for insulin-stimulated Glut4 trafficking to the plasma membrane via the exocyst and the motor protein Myo1c (nl) Activation of RalA is required for insulin-stimulated Glut4 trafficking to the plasma membrane via the exocyst and the motor protein Myo1c (ast)
skos:prefLabel	Activation of RalA is required for insulin-stimulated Glut4 trafficking to the plasma membrane via the exocyst and the motor protein Myo1c (en) Activation of RalA is required for insulin-stimulated Glut4 trafficking to the plasma membrane via the exocyst and the motor protein Myo1c (nl) Activation of RalA is required for insulin-stimulated Glut4 trafficking to the plasma membrane via the exocyst and the motor protein Myo1c (ast)
name	Activation of RalA is required for insulin-stimulated Glut4 trafficking to the plasma membrane via the exocyst and the motor protein Myo1c (en) Activation of RalA is required for insulin-stimulated Glut4 trafficking to the plasma membrane via the exocyst and the motor protein Myo1c (nl) Activation of RalA is required for insulin-stimulated Glut4 trafficking to the plasma membrane via the exocyst and the motor protein Myo1c (ast)
author	wds:Q28505291-5BB5FDB5-62C6-4759-ACA7-791647F2996C
author	Alan R. Saltiel
title	wds:Q28505291-EA5BEFE6-7A93-4A58-A5D9-F18D6C80BE61
title	Activation of RalA is required for insulin-stimulated Glut4 trafficking to the plasma membrane via the exocyst and the motor protein Myo1c (en)
page(s)	wds:Q28505291-5748F21B-44EB-4EA8-B439-C9F39D8A9BDE
page(s)	391-404
instance of	wds:Q28505291-E79ED6AE-AD33-4BB6-AE48-79F0E913E916
instance of	scholarly article
main subject	wds:Q28505291-51E70679-5232-4186-B8BE-A3D28A55FAF7 wds:Q28505291-6AB04A9B-095E-484E-B529-4CC1F6478E6E
main subject	wd:Q7240673 V-ral simian leukemia viral oncogene A (ras related)
PubMed ID	wds:Q28505291-94F3241B-F202-412F-A570-D9313E4FAC56
PubMed ID	http://rdf.ncbi.nlm.nih.gov/pubchem/reference/17765682
PubMed ID	17765682
published in	wds:Q28505291-0FD0AFF1-4A20-40B9-89D6-B048111E3DD8
published in	Developmental Cell
issue	wds:Q28505291-9EA68DA7-D0CF-4B2A-B5B6-123CA41FD29A
volume	wds:Q28505291-6529F67E-B5BB-4D2D-9A38-083087A19DAD
issue	3
volume	13
number of pages	wds:Q28505291-63DD8615-6A46-40CA-9158-AE53D325C8A4
number of pages	14 (xsd:decimal)
DOI	wds:Q28505291-C91DD632-75ED-4C7E-9E0E-3EC05F378489
DOI	http://dx.doi.org/10.1016/J.DEVCEL.2007.07.007
DOI	10.1016/J.DEVCEL.2007.07.007
Fatcat ID	wds:Q28505291-470771D0-C0AD-4919-AD9D-E5DE78464118
Fatcat ID	release_l3pjwui5hbhnjjdckcxtlw45qi
ResearchGate publication ID	wds:Q28505291-92FEBB8A-4F06-4647-9EFD-D651AAABD1B6
ResearchGate publication ID	6074141
is about of	https://www.wikidata.org/wiki/Special:EntityData/Q28505291
is cites work of	RalB and the exocyst mediate the cellular starvation response by direct activation of autophagosome assembly The Exocyst at a Glance Phosphoinositides in insulin action on GLUT4 dynamics: not just PtdIns(3,4,5)P3. DNA methylation as a diagnostic and therapeutic target in the battle against Type 2 diabetes C2 domain-containing phosphoprotein CDP138 regulates GLUT4 insertion into the plasma membrane. Structural Basis of Ist1 Function and Ist1-Did2 Interaction in the Multivesicular Body Pathway and Cytokinesis Regulation of glucose transport by insulin: traffic control of GLUT4. Molecular roles of Myo1c function in lipid raft exocytosis RalA and RalB differentially regulate development of epithelial tight junctions Zinc finger protein 407 (ZFP407) regulates insulin-stimulated glucose uptake and glucose transporter 4 (Glut4) mRNA Prion protein promotes growth cone development through reggie/flotillin-dependent N-cadherin trafficking. Leveraging the membrane - cytoskeleton interface with myosin-1. Kinetics of the interaction of myo1c with phosphoinositides The deubiquitylase USP33 discriminates between RALB functions in autophagy and innate immune response Insulin stimulates phosphatidylinositol 3-phosphate production via the activation of Rab5 A six months exercise intervention influences the genome-wide DNA methylation pattern in human adipose tissue Inflammation produces catecholamine resistance in obesity via activation of PDE3B by the protein kinases IKKε and TBK1. Cardiac PI3K-Akt impairs insulin-stimulated glucose uptake independent of mTORC1 and GLUT4 translocation. Developmental biology of the pancreas: a comprehensive review Molecular mechanisms for the regulation of insulin-stimulated glucose uptake by small guanosine triphosphatases in skeletal muscle and adipocytes Principles of unconventional myosin function and targeting Research advances on flotillins Myo1c regulates lipid raft recycling to control cell spreading, migration and Salmonella invasion Munc18c phosphorylation by the insulin receptor links cell signaling directly to SNARE exocytosis The G(0)/G(1) switch gene 2 regulates adipose lipolysis through association with adipose triglyceride lipase Rab10 associates with primary cilia and the exocyst complex in renal epithelial cells Myo1c regulates glucose uptake in mouse skeletal muscle Dual role for myosin II in GLUT4-mediated glucose uptake in 3T3-L1 adipocytes An actin filament population defined by the tropomyosin Tpm3.1 regulates glucose uptake Myo1c binding to submembrane actin mediates insulin-induced tethering of GLUT4 vesicles GLUT4 exocytosis. Mapping insulin/GLUT4 circuitry. Regulation and control of myosin-I by the motor and light chain-binding domains. The ghost in the machine: small GTPases as spatial regulators of exocytosis

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