about
FH2 domain containing 1Transmembrane p24 trafficking protein 5GRIP and coiled-coil domain containing 2Syntaxin 6Myosin XVIIIAVesicle transport through interaction with t-SNAREs 1ASyntaxin 16Protein arginine methyltransferase 5Vesicle associated membrane protein 4Golgin A2Golgi phosphoprotein 3GRIP and coiled-coil domain-containing protein 2FH2 domain containing 1Protein arginine N-methyltransferase 5Golgi autoantigen, golgin subfamily a, 2Golgi phosphoprotein 3Myosin XVIIIAOptineurinVesicle-associated membrane protein 4Syntaxin 16Syntaxin 6Transmembrane p24 trafficking protein 5Vesicle transport through interaction with t-SNAREs 1ASyntaxin 6GRIP and coiled-coil domain containing 2OptineurinTransmembrane p24 trafficking protein 5Golgin A2Golgi phosphoprotein 3FH2 domain containing 1Protein arginine methyltransferase 5Syntaxin 6Optineurin
P682
VAMP4 is required to maintain the ribbon structure of the Golgi apparatusThe biogenesis of the Golgi ribbon: the roles of membrane input from the ER and of GM130.GM130 and GRASP65-dependent lateral cisternal fusion allows uniform Golgi-enzyme distributionPRMT5 regulates Golgi apparatus structure through methylation of the golgin GM130p28, a novel ERGIC/cis Golgi protein, required for Golgi ribbon formationA novel amyotrophic lateral sclerosis mutation in OPTN induces ER stress and Golgi fragmentation in vitro.Actin- and microtubule-dependent regulation of Golgi morphology by FHDC1.
P921
Q21103101-E6B54FE3-7440-4F13-B1C0-4EEE22767867Q21111434-8622C785-5CEA-48F0-8172-9A2D8D281E96Q21111434-B1BC13D1-5D38-4506-878D-9A4312D2306FQ21113325-0D44756F-BD9F-409D-8B5F-977E95E4763EQ21113325-BFFDF324-B3BA-47FE-B94C-F35D24C84FF9Q21114639-33B42EE8-06F7-4F8E-AEF4-512778278AE6Q21118946-839DCF78-5603-4830-BFC5-0A7CAEB8CD2FQ21125763-C6BD2CAD-A6DD-415A-96C1-DA9737A5EA48Q21127183-16095F39-4D7B-4C95-8C30-2915DF5C2BEBQ21130994-77BBEE45-32CF-4528-BF70-DFD76BCA4466Q21133253-E08E6350-BE37-4B06-BC27-2F686905AEE0Q21172266-3474BDCD-9F41-488A-BE3A-82CEDC5784D1Q21202979-7CEEEC5A-CEB0-4DED-A13A-5AB11AC8156AQ21497831-5972A7CE-54A1-46D8-AFC3-0F7F05D531E5Q21497831-D58C47DB-136B-4BB8-A0F1-55B3CB56FBC8Q21979946-44B34468-38A2-4EC7-BA06-A9A80FB66EC6Q21979946-A5EF75C4-772D-43FF-91A3-A8502A61C678Q21981670-52758D40-CCE9-4840-8130-0E2D68384C7CQ21982146-A9B3CBF9-BCBA-42A6-B224-F26B1EF1408DQ21982149-81D10FE4-DF9F-4EC0-9238-C0049111F1FDQ21985832-2E946876-D63B-4AF6-BD51-3720FAD939FCQ21987802-DBF99D39-C73A-4925-B647-420D4BD7C490Q21989286-05374313-E495-4854-96F8-B00BA7616F9AQ21991749-8B86D0E6-3F05-44C7-BC6D-EB94A717417DQ21991749-CFE627E4-A4CD-4EB5-A9FC-6746C92F0895Q21991755-6C39A33D-07A2-42A7-8522-64757EADBFCEQ21992382-52B72CA9-6FE7-4089-9F5D-40F118867302Q21992382-BE04AD47-B9E9-4F0B-802B-2B80464BE3F9Q21992730-915E148C-D6C0-44F3-ADA6-3056FD88B66DQ28556151-30AC297B-2626-4BB6-9D63-DBF8634DD6FBQ28556707-943179E1-5B05-4432-BDE6-CB6AE5E3A7B9Q28556707-D25AC039-B9FF-4BE0-A56F-078D05A6696CQ28560885-480A2596-2187-4D65-975C-01F796B7E408Q28561131-5FFF6115-DF91-4921-BC80-FC8D4463A89BQ28561131-C10F15DD-668C-489A-A410-92870CBA393AQ28563151-9AEE72A2-5E71-4606-8BE7-A82595D4E3EAQ29516163-D3F93057-8AC9-4776-A406-186AB71A2623Q29519887-2E27509A-96AD-4DE3-86AE-42E5519B3B3EQ29520409-6FE30A94-8270-4CBD-BA30-408F90F85580Q55205746-BBE16615-3505-4C65-B4F5-CCC06406E809
P682
Q24292933-FF280AD7-E543-4B56-8C90-1AB9D96AF134Q24297871-C75B0E4A-0AB6-4CD8-A9C5-D0BD8AC3072BQ24305177-631F6641-FC2B-4299-ABF1-40C56C873BEDQ24307904-70B50BB1-A23C-44E7-BEBF-062F4B246B67Q24323278-8D3CA679-C866-47C1-9193-53080952363BQ29347553-3DAFF7EB-6545-4597-A2C9-83428D01ECC4Q42682092-0C988C83-A3E3-445A-885F-8B9A0D24D0E1
P921
description
The formation of a continuous ribbon of interconnected Golgi stacks of flat cisternae.
@en
biologisch proces
@nl
name
Golgi ribbon formation
@en
type
label
Golgi ribbon formation
@en
prefLabel
Golgi ribbon formation
@en
P2888
P686
GO:0090161