about
CortistatinWerner syndrome RecQ like helicaseProliferating cell nuclear antigenRAD51 recombinaseCyclin-dependent kinase 9 (CDC2-related kinase)FA complementation group MF-box DNA helicase 1DEAD/H-box helicase 11Aly/REF export factorATRX chromatin remodelerTHO complex 1ETAA1 activator of ATR kinaseEssential meiotic structure-specific endonuclease subunit 2Essential meiotic structure-specific endonuclease 1MUS81 structure-specific endonuclease subunitBiorientation of chromosomes in cell division 1 like 1Centromere protein XCentromere protein SGEN1 Holliday junction 5' flap endonucleaseMMS22 like, DNA repair proteinTonsoku like, DNA repair proteinPrimase and DNA directed polymeraseRing finger and WD repeat domain 3SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a like 1Nuclear casein kinase and cyclin dependent kinase substrate 1SET domain and mariner transposase fusion geneZinc finger RANBP2-type containing 3Regulator of telomere elongation helicase 1Ewing tumor-associated antigen 1Fanconi anemia, complementation group MBloom syndrome, RecQ like helicaseCentromere protein XBiorientation of chromosomes in cell division 1-likeF-box DNA helicase 1MMS22-like, DNA repair proteinRing finger and WD repeat domain 3DEAD/H (Asp-Glu-Ala-Asp/His) box helicase 11Essential meiotic structure-specific endonuclease subunit 2Essential meiotic structure-specific endonuclease 1ATRX, chromatin remodeler
P682
A genome-wide camptothecin sensitivity screen identifies a mammalian MMS22L-NFKBIL2 complex required for genomic stabilityPrimPol bypasses UV photoproducts during eukaryotic chromosomal DNA replicationAsymmetry of DNA replication fork progression in Werner's syndromeFBH1 influences DNA replication fork stability and homologous recombination through ubiquitylation of RAD51The Werner and Bloom syndrome proteins catalyze regression of a model replication forkThe DDN catalytic motif is required for Metnase functions in non-homologous end joining (NHEJ) repair and replication restartBOD1L Is Required to Suppress Deleterious Resection of Stressed Replication ForksRepriming of DNA synthesis at stalled replication forks by human PrimPolRAD51 mutants cause replication defects and chromosomal instabilityMms22 preserves genomic integrity during DNA replication in Schizosaccharomyces pombe.RecA protein promotes the regression of stalled replication forks in vitroSwi1 and Swi3 are components of a replication fork protection complex in fission yeast.
P921
Q14864085-0CB24457-E832-4C81-B64E-4B7BC6D8EBD5Q14883757-886276DC-C4FF-43BC-8EF1-F6D3854B3CEAQ14883757-AA92EEEA-3B71-4352-B82C-878674D7C95AQ14902260-A63F2699-A38D-44C4-B824-731BD63F1D5FQ14907735-48A0C9E1-94AC-464C-902F-7F04F4686F9BQ15314958-D6A2C7A1-272E-4A0F-889A-8C87E97F9FD7Q21101297-A9D200BA-E8E6-4DE4-A9BC-E84CA8F6AF29Q21101360-639CEBEF-2877-4C84-9A88-33ED8271233DQ21101360-F72EB542-F819-43F7-A5FA-B1AA64121F2CQ21102307-485EB3D5-D81A-40E8-BCCF-841A958859E1Q21102370-339D92CD-FFD0-4D38-B373-C8EBD6427E4DQ21105313-2D308DD9-FA23-4AB3-9E4C-C5F147D90C80Q21108041-39B967BF-1545-437B-BD6D-D718C33C9444Q21110201-1E9EE9D9-D2FD-4A8B-9781-47812511D628Q21110201-57FB682D-8BDF-4082-8F86-4759EB055BB9Q21113244-37AE88E1-D69C-48E5-83FC-5AB0B57FD1FEQ21113253-1C1807DF-B933-47B0-BB18-728541825899Q21113255-BA96D920-F234-4373-98AD-20FC89235CC4Q21113893-97D0AB14-6460-4D9C-B212-705F0A1702F4Q21114075-3E804828-162B-48EF-BBFA-F1CD1B58AFDFQ21114075-41EC3F50-15AE-410E-9A2E-0573BBC6E6E3Q21114123-0D26E16C-E2CC-4752-AC55-8E3DF56E2AB8Q21114601-3D686B0C-49A1-4176-A075-7A59B310E979Q21118778-87A7B4F6-44DE-4C46-84A6-F7D17131D980Q21118778-BB26E447-B5EE-4A34-B53F-4B91A986EBA9Q21118779-4AC8A2EB-DEA9-40E1-A6CF-207144579EDEQ21120485-6CA92AAC-30EC-4441-A00C-70604A404FB1Q21123820-74CFFE80-5BE7-410E-8CFC-409158025152Q21127029-B42D4812-041D-4745-A4FB-F5481B518959Q21127029-D454C5C1-3D58-4458-A3BD-04F748A83132Q21133394-ABCE8D2F-714C-4143-9B00-B4C60BA81CC1Q21134401-C3CD5F74-40C3-40FF-9F71-41DD15CF2FD0Q21136663-315C4C02-DF41-4FC0-B5CF-B246451065D1Q21136663-9842DA3A-5292-4474-9FEF-E5DC752919B7Q21202226-F5337966-CDA3-46E0-AF98-D6D0745ED677Q21423562-0008CBEE-9FFD-46E0-9257-3E4561E1C7E1Q21423562-53E412D0-3F03-4F56-A7C7-0370CB56FEEDQ21423844-B4256CE3-EEAD-40A6-87BD-6F2B379895C2Q21433084-0A1D6B5A-A6CC-4C1B-B8A5-A0A14208FC5EQ21433084-31AE6C44-9683-40F4-A066-0BB8BDE4CB3D
P682
Q24306107-E089628B-B290-4405-BB36-9950D4978BB9Q24308876-C2A76EF2-CE67-4790-BF55-1CE4F545E04DQ24311409-3D849350-AD21-4389-8F19-33E74CC74EB8Q24314570-2F37DC79-9F47-4ED8-9435-915FC0CA2BDBQ24317819-FA030062-0446-47E3-81F6-4D952937A580Q24338330-DF4B27C3-B6E8-40D8-B256-A989FAE49778Q24338366-C87431D7-6B20-48FB-97FC-D7B0128A6929Q24339613-AE9CC5FD-2C3A-4B6D-8588-C77C72C7F176Q28115721-5D34EE97-57C9-4E04-B3C5-BD94DC8FEE52Q36052321-59256D0C-E478-4ACC-9B81-0D52D782FE93Q37092074-9CB931A3-3DD0-40FB-A29D-C8D3CDFE6926Q39998656-0616FF0C-2121-4BDE-9FE1-D907F2DF7B90
P921
description
The process in which a DNA rep ...... NTP shortage, or other causes.
@en
biologisch proces
@nl
name
replication fork processing
@en
type
label
replication fork processing
@en
altLabel
GO:0031297
@en
collapsed replication fork processing
@en
recovery from replication fork arrest
@en
recovery from replication fork stalling
@en
prefLabel
replication fork processing
@en
P2888
P686
GO:0031297