sameAs
Autophagy related 7Dynamin 1 likeDynamin 3Regulating synaptic membrane exocytosis 1MX dynamin like GTPase 2NSF attachment protein betaOPA1 mitochondrial dynamin like GTPaseUSO1 vesicle transport factorVAMP associated protein ADendrocyte expressed seven transmembrane proteinHECT domain and ankyrin repeat containing E3 ubiquitin protein ligase 1MX dynamin like GTPase 1UBX domain protein 2BBet1 golgi vesicular membrane trafficking protein likeDynamin 2Rabaptin, RAB GTPase binding effector protein 1Putative GED domain-containing protein DNM1P34Putative GED domain-containing protein DNM1P46Vesicle transport through interaction with t-SNAREs 1BRAB interacting factorNSF attachment protein alphaNSFL1 cofactorSyntaxin 18NSF attachment protein gammaGrancalcinOtoferlinAnnexin A7Vesicle associated membrane protein 3Synaptosome associated protein 29Calcineurin like EF-hand protein 1Synaptosome associated protein 23VPS33B late endosome and lysosome associatedUBX domain protein 2AYKT6 v-SNARE homologPutative uncharacterized protein STX1AVesicle transport protein SEC20Syntaxin-10Vesicle associated membrane protein 2Syntaxin 3Dynamin 1
P682
A mutation in OTOF, encoding otoferlin, a FER-1-like protein, causes DFNB9, a nonsyndromic form of deafnessSNAREs contribute to the specificity of membrane fusionThe ubiquitin ligase HACE1 regulates Golgi membrane dynamics during the cell cycleIsolation and characterization of grancalcin, a novel 28 kDa EF-hand calcium-binding protein from human neutrophilsSeven novel mammalian SNARE proteins localize to distinct membrane compartmentsRabaptin-5 is a direct effector of the small GTPase Rab5 in endocytic membrane fusionIdentification of a human homologue of the vesicle-associated membrane protein (VAMP)-associated protein of 33 kDa (VAP-33): a broadly expressed protein that binds to VAMPMutations in VPS33B, encoding a regulator of SNARE-dependent membrane fusion, cause arthrogryposis-renal dysfunction-cholestasis (ARC) syndromeCloning of novel transcripts of the human guanine-nucleotide-exchange factor Mss4: in situ chromosomal mapping and expression in pancreatic cancerSNAP family of NSF attachment proteins includes a brain-specific isoformA human homolog can functionally replace the yeast vesicle-associated SNARE Vti1p in two vesicle transport pathwaysStructure of a flavivirus envelope glycoprotein in its low-pH-induced membrane fusion conformation
P921
Q21097571-5143ED3D-2280-462C-B846-CD6905C29952Q21101107-1D84A9ED-96C0-46C7-A895-0B1741571C1EQ21101107-2E791B66-8C06-464C-86F0-6B35359A08A0Q21102750-136032D3-EFB8-4293-9DF7-ADCE30E71052Q21104836-BDEECAA9-F31A-4E68-86E4-7D9870F2544CQ21105304-E17107DA-F93B-49E0-8EAB-3898167270C5Q21106500-5E30E2B2-DF96-493E-B7FC-9AAD70D2A050Q21106682-B168F4B5-8D11-493E-B01C-08871F554907Q21108163-C8EB3050-A34C-4001-AE46-5F7FEDF27BBEQ21110146-6ED21362-35ED-47F1-BB3E-B14EAB6A3EC0Q21110804-CEBB00DF-5B2F-431E-A3DD-67633CBFE98AQ21111011-7F9141ED-3B00-48AC-AC80-B26C97A81C99Q21111011-9E1F0EC4-E239-4F14-99CE-8348D2BD8269Q21111895-E155F30A-75C4-44E7-80C2-08FE5CD82D67Q21112056-FCD0C7DB-7873-4D52-83B6-3384B8E1F8A0Q21112850-0D9220D8-9C07-460A-B99E-A40DE2DBA683Q21116465-208DECD6-1D00-4182-A9ED-EA7AAE22DF23Q21116564-70B720D0-A681-4408-9007-F74078F61329Q21117497-BCB661E0-E5DA-4F51-8AB6-553F447062B2Q21117498-F16596D4-6CB5-406D-98BB-4F3161865677Q21120732-909CF01C-0707-4C14-AF27-AA714CE0E40BQ21121472-1488D1F4-6168-499A-94AB-C5E208D7B5D5Q21121746-4191636C-965A-488F-90AC-05A60140CB97Q21121760-BC68BF7F-31FB-4DA2-A61C-9C7605803806Q21126304-44E544C7-70E9-42AA-8AE3-D00F5973548EQ21127201-CFC6FDA4-07D0-403B-992B-538488FC2E2BQ21130429-15D6A513-132D-4695-A870-9F476CD80027Q21130986-71B57C81-EB76-48D9-A786-71A9B53E4198Q21131099-C45091FE-F946-4348-A8CF-D74E979A5863Q21131168-5BAFD274-7DAA-4995-91F8-928AF1AA3087Q21131431-C0F32EC5-138B-4EC3-8C8F-BA79F1744E35Q21131887-2DC4B3EE-6EBD-4FCF-9ED7-3CDD599846A2Q21135056-50A8BF77-F17D-41FE-8782-8C0CEF9EF603Q21135669-BA90A635-71CE-405C-82DB-91D33B319513Q21136456-AF196EFC-883B-4D3E-B3C4-3F7C8FFAE877Q21136776-74EB7EF5-8DFC-4137-9DDC-C5C0D01DAC07Q21137170-8DB366E3-6668-4244-9FA2-8DB32C757A4FQ21139711-B31EF6E3-C3FA-49E6-A7B0-9A74ED358CB1Q21150268-A276AB93-9059-48C5-BC96-90905A0EBB53Q21156571-CACA0D10-ADD4-4B49-B7B4-80FE7434C242
P682
Q22009151-CF2B29DD-3F8B-4742-83DE-8BCD5CECDB6EQ22254210-F2322955-C181-4EE7-A1BE-1D90302DCE1EQ24293051-592D2AA9-6865-47F4-9F7F-669A1649C283Q24301048-58A4B27A-F0A8-4559-85ED-18464ED4BA60Q24308782-A052ABB2-5751-42B4-8680-97A414D16F78Q24309997-47CC3739-DCC4-4492-83C4-1273A5FDE755Q24313250-3A595499-6FBF-491C-9547-348AD0C9717CQ24322437-FB72C3F7-9CCB-420F-A1BD-CC602A7F0BA7Q24322681-F291CE13-4C8B-4D3B-8687-7A91F9A644DAQ24323085-FD122AF9-C28D-4298-97C0-0634970E3035Q24323984-C972D3F7-C0BC-46F1-AEAE-A6CE1ECC7B2DQ27643140-c71e9a2a-4fb0-a809-e76b-f7c80d126ab6
P921
description
The membrane organization proc ...... ers to form a single membrane.
@en
biochemischer Vorgang in Zellen
@de
biologisch proces
@nl
name
Fusione dei bilayer lipidici
@it
Lipid bilayer fusion
@en
Membranfusion
@de
fusion de membranes
@fr
membranfusjon
@nn
type
label
Fusione dei bilayer lipidici
@it
Lipid bilayer fusion
@en
Membranfusion
@de
fusion de membranes
@fr
membranfusjon
@nn
altLabel
GO:0061025
@en
GO:0061025
@nn
cellular membrane fusion
@en
membrane fusion
@en
prefLabel
Fusione dei bilayer lipidici
@it
Lipid bilayer fusion
@en
Membranfusion
@de
fusion de membranes
@fr
membranfusjon
@nn
P486
P6366
P672
P2888
P373
Membrane fusion
P486
P6366
P672
P686
GO:0061025