about
REV3 like, DNA directed polymerase zeta catalytic subunitDNA polymerase epsilon 2, accessory subunitReplication protein A1Ubiquitin CDNA polymerase iotaUbiquitin BMitotic arrest deficient 2 like 2Replication protein A2Replication factor C subunit 2Neurite extension and migration factorDNA polymerase kappaUbiquitin A-52 residue ribosomal protein fusion product 1Replication factor C subunit 5Replication factor C subunit 4Replication factor C subunit 1Replication factor C subunit 3Ribosomal protein S27aReplication protein A3REV1 DNA directed polymerasePolymerase (DNA directed), kappaNeurite extension and migration factorPolymerase (DNA directed), epsilon 2 (p59 subunit)REV3 like, DNA directed polymerase zeta catalytic subunitPolymerase (DNA directed), eta (RAD 30 related)DNA polymerase IV PA0923REV1, DNA directed polymeraseError-prone DNA polymerase Rv3370cDNA polymerase IV NMB1448DNA polymerase etaDNA polymerase IV LA_0503DNA polymerase IV VC2287DNA polymerase IV CBU_0280DNA damage-inducible protein BT_4409DNA polymerase IV FN1199DNA polymerase IV SAOUHSC_02111DNA polymerase IV spr0414DNA-damage lesion bypass DNA polymerase BSU_23870DNA polymerase IV STM0313DNA polymerase IV GSU1616DNA polymerase IV GSU0043
P682
Interactions in the error-prone postreplication repair proteins hREV1, hREV3, and hREV7Molecular basis for PrimPol recruitment to replication forks by RPAMolecular dissection of the domain architecture and catalytic activities of human PrimPol.Alternative solutions and new scenarios for translesion DNA synthesis by human PrimPol.
P921
Q21101122-87EE63F3-7F30-4A1E-8529-20324449F5FAQ21104993-2AB70738-23A8-413B-9650-8DEF064F387DQ21109589-DA7727EC-6768-4418-AF42-F1AD5E0AD891Q21111827-33CB6460-87D2-4427-B295-72EA8F835601Q21112143-372622A3-543F-4EF9-9ABE-9918F767FB94Q21112968-2B4E13F5-2F66-47A1-AA64-3C255A63DC84Q21113769-2D89249E-B209-4DB4-AB34-59266CFACDB4Q21115044-19957D2F-20E8-47AA-B798-39F6AA355F99Q21117901-6C02BCDC-7583-4D0F-AFC2-6DDFEC2C0DDEQ21118525-7D4F9012-E324-40B9-BCE7-A0B8C0CBDAC1Q21120451-8ACA732E-F482-4ADC-8936-652801D14FC6Q21120451-E1161A35-0822-4811-9EBB-D179D2A904DBQ21122033-B0E87FC6-9E8F-40EE-9C2F-13448093E60BQ21123006-0AF78C28-4E29-458F-A4A4-54AC96B34A3CQ21127020-52ECFAA5-4AB0-42B1-B9B4-DE95C1B05748Q21127023-C9E6DF3D-F167-42EC-98FE-10C2E40B061AQ21127025-7F23B0BC-9FBD-4BCD-A1C2-B300C4E8C51FQ21131865-7130BCB4-59C4-4966-8993-6305C2C9A18BQ21133430-0AAC37DD-159F-4937-998C-A2647A72CE81Q21135282-FEF2F61C-54A4-44DE-B1C8-45E56FC94CC6Q21496334-00969A0B-726F-4458-89F3-200AB4D20DC3Q21496334-6CA26C37-F360-45E1-BFCE-A163F8377507Q21496545-553858C3-EC3C-44D2-A6C0-6FA15024B8E8Q21497496-8CB936C8-D14A-4CBD-B066-F2B0414A244DQ21498316-3C016FC1-FF5C-4411-A7ED-1257C0CEF9C3Q21498317-ED3F592C-0784-44D9-A4A0-05179576F177Q21759609-AC98C688-D3C7-47FE-902E-4ABC821BD2C5Q21989460-B09FFB1B-DF0F-4F01-99B6-147DDBA2355AQ22231829-C11B982B-65FB-4A3C-B03F-5A426A3D3DD3Q22271715-7B34B1E3-E4A2-47D4-ABE5-1B0473620344Q22677925-D6DFB6BE-EEE1-4E56-9133-5368907A4F1FQ23063577-72A3C75F-FDA8-49B9-A944-AC30D7AD315EQ23432923-C276376E-3CAF-4749-947C-EA1A99677AB7Q23446623-3D14F2D7-9B76-4CF4-8B78-A3529A4CEC10Q23458250-68483091-B741-44B1-8801-C868A2EF6A7BQ23459434-3D49CD2D-3836-4A1F-9DF5-D948D18CD352Q23479579-C723E66C-5163-4668-8B02-A00783B6A732Q23494730-D831E6B3-1D3E-4DC8-9E13-BFBCB555B775Q23516638-060D441F-F4C6-4375-B108-53453A539709Q23558093-9DFD817E-24EB-4BD9-A2B7-028EFF9EE33A
P682
description
The conversion of DNA-damage i ...... his process does not remove th
@en
biologisch proces
@nl
name
error-prone translesion synthesis
@en
type
label
error-prone translesion synthesis
@en
altLabel
GO:0042276
@en
mutagenic PRR
@en
prefLabel
error-prone translesion synthesis
@en
P2888
P686
GO:0042276