about
Regulating synaptic membrane exocytosis 1RAB11 family interacting protein 5Corticotropin releasing hormone binding proteinRAB26, member RAS oncogene familySynaptogyrin 1Cyclin dependent kinase 5Transmembrane p24 trafficking protein 10VPS41 subunit of HOPS complexRAB11 family interacting protein 1RAB11B, member RAS oncogene familyRAB11 family interacting protein 2Synaptogyrin 3Transmembrane protein 79RAB31, member RAS oncogene familySynaptogyrin 2STEAP2 metalloreductasePutative uncharacterized protein STX1ADnaJ heat shock protein family (Hsp40) member C5Cyclin-dependent kinase 5Vesicle-associated membrane protein 2Corticotropin releasing hormone binding proteinTransmembrane p24 trafficking protein 10RAB10, member RAS oncogene familyMyosin, heavy polypeptide 9, non-musclePeroxisomal biogenesis factor 5-likeSix transmembrane epithelial antigen of prostate 2RAB3A, member RAS oncogene familyRAB26, member RAS oncogene familyRAB31, member RAS oncogene familyRAB11 family interacting protein 2 (class I)RAB11 family interacting protein 5 (class I)RAB11 family interacting protein 1 (class I)RAB11B, member RAS oncogene familyTransmembrane protein 79Synaptogyrin 1Synaptogyrin 2Synaptogyrin 3Syntaxin 1A (brain)VPS41 HOPS complex subunitCyclin-dependent kinase 5
P682
RAB26 and RAB3D are direct transcriptional targets of MIST1 that regulate exocrine granule maturationMolecular cloning and characterization of STAMP1, a highly prostate-specific six transmembrane protein that is overexpressed in prostate cancerGapex-5, a Rab31 guanine nucleotide exchange factor that regulates Glut4 trafficking in adipocytes.Symmetrical organization of proteins under docked synaptic vesicles
P921
Q21104836-04BDA90F-733C-4684-AB70-892918F7731EQ21108801-454BA1D4-3C08-4FA9-9DAA-7052794D99F8Q21110775-7689CCBE-19B8-433A-92E0-ED4AD9AC640DQ21113774-1A8C106A-008B-4743-B160-D9948C9DAD76Q21114472-D5AAA8FE-234A-4AAE-AC0A-BE70E1375763Q21116933-07FA70FA-58AD-4467-A59B-D685013B76BAQ21120121-A9AF4729-CEBD-4EC2-BA10-7EC4C6D9FEC8Q21122712-5D72A933-0A85-49D6-A625-1C96401A1792Q21123821-CA423C75-555D-4848-BCED-1383218C5F0DQ21125020-289EF982-9E60-4F88-A328-2606190CA8E7Q21125021-5D896A0D-C999-4FE6-9927-EA276D377427Q21127235-0A11C059-4479-4BF6-BB37-68D4E27C6C1EQ21132791-8AD876E6-5387-4429-9353-01B568004A9BQ21132791-FE08C111-AFA0-4F50-9418-3BA903D7D3E2Q21135227-7C3F895A-73EB-43A1-BCC4-CBCF6708F2EAQ21135420-39233AC7-55E4-4BBB-AF7B-D777476C318FQ21135720-07A6323E-3572-408A-BED6-B2B06DE49477Q21137170-6A823816-3392-4B49-931A-9EF00C01F591Q21173244-E23B1F3F-DC1D-43EF-8A0E-8C17E8DDE9FEQ21495012-342EE9C9-528E-4A15-A318-6BD51AA43086Q21495012-A0CFC8A7-FA74-4BD9-AD10-2B8CE7660FD2Q21496233-7959AE5D-8392-4CAE-8E8D-9C18F3830C76Q21499358-769BA50E-8F7B-460C-A186-5A8F7F62392DQ21980235-A4EAB70A-411E-4A12-BC0C-B4B9DC559722Q21983297-8D905B0F-0C25-4112-86AB-66727AC79AB6Q21983297-E989E426-E930-4A54-BC8B-E897B02F63CFQ21986581-31A71014-5347-4A81-B9E4-FD8270FE52D8Q21986581-510F5E89-F651-4FD7-BACB-C1D2C04A6EFCQ21987868-C22F19C0-9386-4B1E-ABA3-E4BC38725D5CQ21988594-5C77849C-FD5D-47E7-8B2A-6D0222AB9E53Q21989978-080882EF-5B14-495A-AEF0-F393AA80EC6AQ21989978-570DBB4C-1C75-46EF-A27E-9F0428A4F96CQ21989979-09FCDE88-DE45-443A-BE7B-18D4D8C7EE3BQ21989988-49EB839F-D9E9-496A-A27E-5B38548A1B8AQ21990013-31A0CCB7-9CF4-4EB4-A954-90CDE28C35EAQ21990013-A3688476-CE87-4DB1-8F1A-631B621E5459Q21990020-2F728051-9740-4225-A28E-9EA535269765Q21990020-9E117468-3068-45AD-9F3D-4D1AA7546601Q21990021-41B771B1-66A6-486E-A31B-15E890785244Q21990938-C4325E19-B44C-43E2-9C43-FF3C9EAB687F
P682
description
A process of exocytosis in whi ...... s, neurotransmitters, or diges
@en
biologisch proces
@nl
name
regulated exocytosis
@en
regulert eksocytose
@nn
type
label
regulated exocytosis
@en
regulert eksocytose
@nn
altLabel
GO:0045055
@en
regulated secretory pathway
@en
prefLabel
regulated exocytosis
@en
regulert eksocytose
@nn
P279
P2888
P686
GO:0045055