about
Proliferating cell nuclear antigenTripartite motif containing 25REV3 like, DNA directed polymerase zeta catalytic subunitFA core complex associated protein 20ISG15 ubiquitin like modifierUbiquitin conjugating enzyme E2 L6Ubiquitin specific peptidase 10Valosin containing proteinReplication protein A1Ubiquitin CDNA polymerase iotaDenticleless E3 ubiquitin protein ligase homologUbiquitin BReplication protein A2Replication factor C subunit 2DNA polymerase delta 1, catalytic subunitDNA polymerase delta 2, accessory subunitDNA polymerase delta 3, accessory subunitDNA polymerase delta 4, accessory subunitDNA polymerase kappaPrimase and DNA directed polymerasePoly(ADP-ribose) polymerase family member 10Ubiquitin A-52 residue ribosomal protein fusion product 1SprT-like N-terminal domainReplication factor C subunit 5Ubiquitin specific peptidase 43Replication factor C subunit 4Replication factor C subunit 1Replication factor C subunit 3Ribosomal protein S27aReplication protein A3PCNA clamp associated factorREV1 DNA directed polymeraseZinc finger and BTB domain containing 1Denticleless E3 ubiquitin protein ligasePolymerase (DNA directed), kappaREV3 like, DNA directed polymerase zeta catalytic subunitValosin containing proteinDNA polymerase IV PA0923Fanconi anemia core complex associated protein 20
P682
Novel enzymatic function of DNA polymerase nu in translesion DNA synthesis past major groove DNA-peptide and DNA-DNA cross-linksSystems-wide analysis of ubiquitylation dynamics reveals a key role for PAF15 ubiquitylation in DNA-damage bypassBridging the gap: a family of novel DNA polymerases that replicate faulty DNA.Mechanisms of DNA Damage Tolerance: Post-Translational Regulation of PCNACoordinated Activity of Y Family TLS Polymerases and EXO1 Protects Non-S Phase Cells from UV-Induced Cytotoxic Lesions
P921
Q14902260-C589C022-CB77-4649-81B3-2557BD82F7F9Q14902260-E2D515A6-23AC-48EE-896B-16D0282D58AAQ21101064-1C6293E8-FDCC-40A3-B9E2-1D83FBE26E25Q21101122-0589E8B2-0588-43EB-94B4-594E04BDD858Q21101278-28D01BEC-42C4-4003-8C28-5E753FC95ED6Q21101451-BA732ECF-FA8A-445D-89EC-ABF1986CDDDFQ21101900-624FA3DC-5ADD-4C06-AB04-C936B5FF3C97Q21106115-4F1AAE72-C850-4403-BB96-178492132DAAQ21109279-FA8E3CF9-19F2-4341-94B9-7327D9C241E3Q21109589-7971E922-CF49-4018-BD99-37FB5305D53AQ21111827-40B9F0DF-EF7D-4D16-8550-E50C9A7D523DQ21112143-DFC117F8-5AF9-429E-8F10-6D5A358EBAF6Q21112159-C9620810-58DF-46F2-A593-4DF89A601CE5Q21112968-ED0D2877-7DD2-4A52-8F75-7F9F9FE93972Q21115044-697CF03D-418F-470E-BCB6-90920AA51A85Q21117901-EDC197D0-C74C-4471-B388-10048BB951C7Q21117980-20E7DA68-8D64-4726-87EC-978C1DD46776Q21117981-0833D138-CBBF-4E0C-B7D4-D9EE3F91C058Q21117984-3EBEDEC3-F202-46F4-9D5D-E0AEC6CB15D4Q21117985-4A3F32B5-7FAA-4A9D-A3EC-6B4B3666BAF4Q21120451-69C871B5-E6EC-4F07-B1A9-75402AD392B1Q21120451-A1EDFDDB-A60F-4AB4-9CA2-24C326E23EA9Q21120485-C9CDC873-246E-4D75-8BD3-1C32FB27CF40Q21121002-00C7ABA0-ACF2-41D9-8E67-1B5501CE58BFQ21122033-5A4272E4-D7C9-472F-8EA1-3490E14C44D6Q21122101-3024CD05-F2D4-492F-A021-6D6A46BF4D3CQ21123006-529026C4-00B9-4B0C-B21D-75199F9B921FQ21125564-1D94E8ED-010C-4A6D-9A3A-18CB200B3754Q21127020-9455B359-6635-4E4B-A6C5-108C2B3B6560Q21127023-E2D26D74-1B4C-45EB-A613-CF414E016006Q21127025-0A6179C4-A5D8-4235-8274-9CE26AD086BCQ21131865-604B6C3C-470B-4DB3-AE44-47075851C7BDQ21133430-75AFFCC9-E218-419C-9C94-001C8DBA1161Q21133772-3165C3B9-3287-447F-9DFA-99B8F3E4C027Q21133772-8A5B5353-6A3E-4B5B-A62A-7A60379D5F1BQ21135282-6088D327-1CBA-43B2-8519-064D3AD152B6Q21170892-9AD440D9-31F7-4768-988A-41C9340BAFFEQ21494384-A5843612-6722-4F58-9BDF-52FE9569BB9AQ21496334-19384962-C1B6-44B9-8DCB-F6BDE1928192Q21498316-BD4E7DE1-F299-403D-BC85-CA68FBAF6566
P682
description
The replication of damaged DNA ...... ntinue beyond the lesion. This
@en
biologisch proces
@nl
name
translesion synthesis
@en
type
label
translesion synthesis
@en
altLabel
GO:0019985
@en
bypass DNA synthesis
@en
prefLabel
translesion synthesis
@en
P1417
topic/translesion-synthesis
P2888
P686
GO:0019985