about
Breast cancer 1, early onsetParkin RBR E3 ubiquitin protein ligaseUbiquitin protein ligase E3ATNF receptor-associated factor 2BRCA1 DNA repair associatedSH3 domain containing ring finger 2Ubiquitin like with PHD and ring finger domains 1Tripartite motif containing 21WW domain containing E3 ubiquitin protein ligase 2Ring finger protein 41Membrane associated ring-CH-type finger 7Tripartite motif containing 71Recombination activating 1Itchy E3 ubiquitin protein ligaseUbiquitin like with PHD and ring finger domains 2CCR4-NOT transcription complex subunit 4Deltex E3 ubiquitin ligase 3LRing finger protein 185Ankyrin repeat and SOCS box containing 4Ubiquitin conjugating enzyme E2 D3Ring finger protein 115ERCC excision repair 8, CSA ubiquitin ligase complex subunitRing finger protein 146Tripartite motif containing 37Autocrine motility factor receptorMembrane associated ring-CH-type finger 5Ring finger and CHY zinc finger domain containing 1STIP1 homology and U-box containing protein 1Damage specific DNA binding protein 2SH3 domain containing ring finger 1Ring finger protein 8Listerin E3 ubiquitin protein ligase 1SH3 domain containing ring finger 3Kelch like family member 24Leucine rich repeat and sterile alpha motif containing 1Ring finger protein 220Tripartite motif containing 68Tripartite motif containing 58Ring finger protein 187Ring finger protein 213
P682
Regulation of the ubiquitin-conjugating enzyme hHR6A by CDK-mediated phosphorylationA novel RING-type ubiquitin ligase breast cancer-associated gene 2 correlates with outcome in invasive breast cancerPolyubiquitylation of AMF requires cooperation between the gp78 and TRIM25 ubiquitin ligasesICBP90, a novel methyl K9 H3 binding protein linking protein ubiquitination with heterochromatin formationAssociation of beta-arrestin and TRAF6 negatively regulates Toll-like receptor-interleukin 1 receptor signalingTwo different classes of E2 ubiquitin-conjugating enzymes are required for the mono-ubiquitination of proteins and elongation by polyubiquitin chains with a specific topologyNuclear tumor necrosis factor receptor-associated factor 6 in lymphoid cells negatively regulates c-Myb-mediated transactivation through small ubiquitin-related modifier-1 modificationThe USP7/Dnmt1 complex stimulates the DNA methylation activity of Dnmt1 and regulates the stability of UHRF1Direct characterization of E2-dependent target specificity and processivity using an artificial p27-linker-E2 ubiquitination systemAn altered-specificity ubiquitin-conjugating enzyme/ubiquitin-protein ligase pairTRIM44 interacts with and stabilizes terf, a TRIM ubiquitin E3 ligaseIdentification of RNF213 as a susceptibility gene for moyamoya disease and its possible role in vascular development.Transcription factor TAFII250 promotes Mdm2-dependent turnover of p53DNA damage-specific deubiquitination regulates Rad18 functions to suppress mutagenesisStabilizing mutations of KLHL24 ubiquitin ligase cause loss of keratin 14 and human skin fragility
P921
Q14862232-6A1DCF73-9888-487F-B536-8DBB9D3C393CQ14864264-9AC35EC5-BDA9-491C-B3BC-29010BBB76D2Q14878332-48F57DFE-7727-44A0-ADC3-35EC30698E14Q14914363-A3E66A47-9D12-4E57-B02B-109E2CF59FC2Q17487737-B51526D4-4D7B-4FE5-9DD5-CC62DE3F282BQ21100407-52E6B31A-A1E9-44DE-9989-89902983675BQ21101117-56E59EC8-39E5-4953-BE79-C6410EEDF4EBQ21103284-231B2DBB-EAB9-44B2-AC61-BC8FFF05986BQ21105130-654507D8-D90F-4C45-BADB-0775EF24E104Q21106502-A890307C-BF1F-48BE-8F34-C75CB3EBD09AQ21108016-98D3C5C2-22FA-4F01-ACF7-78AD90F49C2DQ21108016-A4A0773D-FA57-45CE-A290-53C50DA135B0Q21108016-F7A6059F-9F6B-4BCF-83FF-3513045249B0Q21108874-E892A6B2-C806-4CF6-8158-706AC78A6A3AQ21109003-51C276E9-AA78-405F-8857-BB35BCAABD1FQ21109507-71A17EC0-D152-46EC-A916-4EA347988561Q21109674-A3B61A98-7174-4BCE-A876-DBFC0E1763D1Q21109863-95ADAD48-8342-4D35-A236-5AC73F2082A4Q21110060-7D55141C-A508-44D3-B9DB-5032AAD04319Q21110686-08F288AC-5CB0-4E7E-A096-52A66EF49C32Q21111644-A5D7ACFC-FF4E-4BA5-BA49-F1337BE4E481Q21111644-CBA14F6A-53F0-47E5-9A01-D5141C3F0F46Q21112096-DB4FA029-3D7A-4A2C-A649-EA0A03A4B76AQ21112144-BA725631-5AE8-4AB1-88F2-F63287686779Q21112346-CE58462F-2EAA-4D50-8CA2-41F047C6A7D6Q21112482-0C9D88D9-F342-497C-8D38-04640CF48F33Q21112497-1708F5DB-3F45-4CB9-B122-F25939FF48C2Q21112658-3BFD6C91-C504-4B8F-A0A5-F8C698D37E15Q21115770-4D1299FE-CCAB-4624-9ED9-106F99215B4FQ21116449-07FE7931-0731-461E-862B-9E5B80DBB449Q21116753-22CA17E7-FBA5-4D55-AB92-8915A3F4FB18Q21117438-30031703-3676-418F-AEE9-46F4AED35A42Q21117438-D04759CD-B66A-46B0-A773-40C0E37086AAQ21117776-7EFE538B-9820-4F23-822D-9F3D23D5FC4AQ21118319-059EDD95-80A9-4386-9FE6-5E7507E9CC0FQ21118450-E80FBE0E-62F5-48AB-85DA-151B45F7071DQ21119681-184B978E-79F7-4516-A7F0-7FE0DC2370E3Q21121525-2AB49FE7-44CF-4444-B974-EA3CECE764A4Q21121626-10635CCC-A9B1-46CC-A3D8-F34BF1295ED0Q21123846-38A7928F-A8DA-47A3-8EB7-51185008CD0F
P682
Q24294393-F9006D53-3223-400A-A410-E15C51EACE57Q24294937-0A194252-B5E8-43D0-993E-3613B0A77477Q24297370-423D33F0-9A89-48A9-91BF-47DA84C2C947Q24298944-37F5CF9C-608B-46A9-801D-1C582AFEDAC2Q24299892-3BA3CB2E-7B90-4180-B33A-6FD4F3CD60FAQ24301551-00747DDC-1955-4D5A-BF4E-81548A4478A2Q24304276-5908FF3E-0749-4E44-A077-6CC4904750A4Q24313017-4905533A-5109-4B39-A62D-50B1F12310A5Q24313387-527548F7-22BF-4734-8E33-AFD14B0B2F48Q24314049-DDA96AD2-478E-48DF-AC29-79E5BAF4BE4CQ24314444-2E3974CE-7C5C-4C21-9EEB-BCD5E89A8B52Q24317590-B687E9C3-04D5-42F7-9CC0-86FAD4E501F2Q28116100-2492F155-7323-435A-B5DB-3931A10AAFD5Q28119166-F41F2A35-FD46-42D7-9310-51F87F698B9BQ28975757-D0111F91-3DCA-45B2-9C6F-8983B66DEC8E
P921
description
The ubiquitination by a protei ...... on of an isopeptide crosslink.
@en
biologisch proces
@nl
name
protein autoubiquitination
@en
type
label
protein autoubiquitination
@en
altLabel
GO:0051865
@en
protein auto-ubiquitination
@en
protein auto-ubiquitinylation
@en
protein autoubiquitinylation
@en
protein self-ubiquitination
@en
protein self-ubiquitinylation
@en
prefLabel
protein autoubiquitination
@en
P2888
P686
GO:0051865