Human DNA polymerase eta is required for common fragile site stability during unperturbed DNA replication - Wikidata - wikimedia - TriplyDB

Human DNA polymerase eta is required for common fragile site stability during unperturbed DNA replication

Human DNA polymerase eta is required for common fragile site stability during unperturbed DNA replication

http://www.wikidata.org/entity/Q41350133

about

CRL4(Cdt2) E3 ubiquitin ligase monoubiquitinates PCNA to promote translesion DNA synthesis Common fragile sites: genomic hotspots of DNA damage and carcinogenesis Replication of Structured DNA and its implication in epigenetic stability Structure and mechanism of human DNA polymerase η The tail that wags the dog: p12, the smallest subunit of DNA polymerase δ, is degraded by ubiquitin ligases in response to DNA damage and during cell cycle progression Biochemical analysis of DNA polymerase η fidelity in the presence of replication protein A Microsatellite interruptions stabilize primate genomes and exist as population-specific single nucleotide polymorphisms within individual human genomes DNA secondary structure at chromosomal fragile sites in human disease.Proteomic Profiling Reveals a Specific Role for Translesion DNA Polymerase η in the Alternative Lengthening of Telomeres.Mutation of the little finger domain in human DNA polymerase η alters fidelity when copying undamaged DNA DNA polymerase theta up-regulation is associated with poor survival in breast cancer, perturbs DNA replication, and promotes genetic instability Phosphorylated Rad18 directs DNA polymerase η to sites of stalled replication Spartan deficiency causes genomic instability and progeroid phenotypes.Dysregulation of DNA polymerase κ recruitment to replication forks results in genomic instability.Beyond translesion synthesis: polymerase κ fidelity as a potential determinant of microsatellite stability.Ablation of XP-V gene causes adipose tissue senescence and metabolic abnormalities.DNA polymerase η is regulated by poly(rC)-binding protein 1 via mRNA stability Unlocking the steric gate of DNA polymerase η leads to increased genomic instability in Saccharomyces cerevisiae.DNA replication stress response involving PLK1, CDC6, POLQ, RAD51 and CLASPIN upregulation prognoses the outcome of early/mid-stage non-small cell lung cancer patients.Enhancement of human DNA polymerase η activity and fidelity is dependent upon a bipartite interaction with the Werner syndrome protein Mechanism of replicative DNA polymerase delta pausing and a potential role for DNA polymerase kappa in common fragile site replication.Distinct functions of human RECQ helicases WRN and BLM in replication fork recovery and progression after hydroxyurea-induced stalling.Homologous recombination mediates S-phase-dependent radioresistance in cells deficient in DNA polymerase eta.Stability of the human polymerase δ holoenzyme and its implications in lagging strand DNA synthesis.Y-family DNA polymerases and their role in tolerance of cellular DNA damage.DNA synthesis by Pol η promotes fragile site stability by preventing under-replicated DNA in mitosis.Biochemical analysis of active site mutations of human polymerase η DNA polymerase κ-dependent DNA synthesis at stalled replication forks is important for CHK1 activation.DNA polymerases and cancer.The polymerase eta translesion synthesis DNA polymerase acts independently of the mismatch repair system to limit mutagenesis caused by 7,8-dihydro-8-oxoguanine in yeast.Rad18-dependent SUMOylation of human specialized DNA polymerase eta is required to prevent under-replicated DNA.DNA polymerases ζ and Rev1 mediate error-prone bypass of non-B DNA structures.Cyclin Kinase-independent role of p21CDKN1A in the promotion of nascent DNA elongation in unstressed cells.PPL2 translesion polymerase is essential for the completion of chromosomal DNA replication in the African trypanosome.TRIP/NOPO E3 ubiquitin ligase promotes ubiquitylation of DNA polymerase η.The roles of DNA polymerase ζ and the Y family DNA polymerases in promoting or preventing genome instability.PrimPol-A new polymerase on the block.A role for DNA polymerase θ in the timing of DNA replication.Maintenance of Genome Integrity: How Mammalian Cells Orchestrate Genome Duplication by Coordinating Replicative and Specialized DNA Polymerases.DNA polymerase η modulates replication fork progression and DNA damage responses in platinum-treated human cells.

P2860

Q24298314-A6D139D0-CB90-41D0-BAB0-9DE2DD1F9001 Q26825040-90584CB6-3E72-4199-807F-804AAF90F6B4 Q26992309-C634D17E-5BB4-4CDF-97AD-E09A509EE170 Q27662730-4DFE85DA-3A17-4314-823F-57662BD69996 Q28303222-A77B38C2-FC14-4C4E-9028-8DA42B522C2D Q28538764-4F362F46-5064-4245-8289-844DE7088760 Q28540820-27784BB3-61B2-4FE1-9E16-97F7D1A1A20A Q30300009-49746ED7-318C-4DA0-B03B-A006F8FC15F9 Q33605965-D02A2B24-12DE-4856-A134-47ED0B20CFE1 Q33997247-4B9FDCDE-F368-435B-9278-59B62A74EA2D Q34067829-0177F3D1-7749-44CF-A819-736EDDB448B2 Q34368618-59449DAE-1697-4D03-99EB-58FD243D8D36 Q34722436-48554AA6-D8A0-46FE-8752-3EC1977D76CB Q35759995-C8CED269-ADD7-4A9C-9C7A-AEE51964C91A Q35780144-726F5C3B-2F32-4AC3-8B4B-E96DD49CD4A8 Q35989743-427AFFD0-AA89-4691-B1E4-5A64FCD74D26 Q36035857-F3B05203-45C0-4530-9FBB-0EC02C0C5E8E Q36296857-DD4519E0-55FC-49B7-B7EB-58C605662DC1 Q36415115-B5245295-A63E-4A92-AFEC-74E9851238C2 Q36452037-1468AECC-EED0-4A88-8FAD-94000153A4D5 Q36517968-0885F5BC-17FE-45C5-A41E-A922DDAAFF1D Q36553152-5B28FC12-9323-477C-BDB3-2E833B523845 Q36646991-98951B89-FC00-42D8-8CD0-8F74BB432C38 Q36770665-DE6B9CFD-E491-431E-AFA2-DAD8E855C120 Q36778894-C06ACFFE-819B-4964-8474-831B77034200 Q36804077-04D3FD62-E5B4-42ED-9FF4-A1D6BE25B3AB Q36893377-612D4AC8-D1D4-4420-8F14-961DA1E9738C Q37061484-0BF22098-B798-4BE4-8A61-82C6F7CC799A Q37084895-E964999F-DD0D-477C-B725-283E1D2139C6 Q37355956-B6D9ED87-4058-435E-8B95-A87213CD0907 Q37396238-2D57AE67-822B-4F7E-B04C-1A3CB5F2DD0B Q37416977-B1119417-1B61-4095-9122-88B2C3AB2431 Q37432824-3608E5BD-AE13-4C4B-8FD4-AC64072CFF75 Q37504432-872111AE-D14C-4A83-B0D8-145097A39810 Q37618680-2E78EAFD-6F07-48E8-9C89-2BF837FB736B Q38063711-5F8DC851-1135-43FA-819F-E4EA0E3E3F08 Q38866687-1172FB78-481A-4552-91B4-E77D1BE66949 Q38978675-6CD50F71-86D5-4F5F-BCD8-91965932094C Q39031967-36C27966-4A46-433A-915B-3574869A385D Q39061225-8ABA68B5-1BFA-4166-AB97-CE1FEC1013E8

P2860

Human DNA polymerase eta is required for common fragile site stability during unperturbed DNA replication

http://www.wikidata.org/entity/Q41350133

description

2009 nî lūn-bûn

@nan

2009年の論文

@ja

2009年論文

@yue

2009年論文

@zh-hant

2009年論文

@zh-hk

2009年論文

@zh-mo

2009年論文

@zh-tw

2009年论文

@wuu

2009年论文

@zh

2009年论文

@zh-cn

name

Human DNA polymerase eta is re ...... ng unperturbed DNA replication

@en

type

label

Human DNA polymerase eta is re ...... ng unperturbed DNA replication

@en

prefLabel

Human DNA polymerase eta is re ...... ng unperturbed DNA replication

@en

P1433

Q41350133-84322771-A878-4B82-B882-7088EF41C04C

P1476

Q41350133-9B5F8D9A-FAB4-4770-BAED-6010BDADCCF6

P2093

Q41350133-05D3320D-1C0A-407A-A48A-8CB743F51B20

Q41350133-51A7C652-1E18-42DB-8608-C2B787310AD2

Q41350133-5F076E61-13AD-46A1-9B3B-320073945ABE

Q41350133-C305AA98-7249-4AA8-A5E5-08BF4327DF46

Q41350133-E8F2A6FB-183A-4981-AA99-3DA9492C1C12

Q41350133-EB581875-31F1-4172-B33E-EBFC59EAD7CD

P2860

Q41350133-0AD9BEF5-BB33-461A-8947-E0DCFFC87E2B

Q41350133-0E8F12C7-00CA-417D-9597-AD2DE60171DC

Q41350133-1AEC80A6-268D-4BA7-83DB-26F295255B2A

Q41350133-21782B95-2A59-44DC-AE52-6355F276C014

Q41350133-23D9D621-3401-44DA-B684-CF8D28DB2014

Q41350133-268694E1-26ED-4E9E-B440-C71276878F9A

Q41350133-330D5155-D711-4845-BFA6-107B057D33DC

Q41350133-341921FC-31CA-431F-B414-8547D3E74241

Q41350133-37DA49EB-6358-40C4-B1A1-4CA135B32DB5

Q41350133-38F2D62C-E3B6-42AB-A344-7136E61F6513

P304

Q41350133-BC75BB85-1AC4-435F-9B34-D2E7776E6D22

P31

Q41350133-2857DF54-B4CC-45F3-AD01-791CA06FA57C

P356

Q41350133-521580B1-0B43-42E0-8709-D0D0C0B51067

P407

Q41350133-563BAFC3-B8C9-43CC-8EA4-1A579D371848

P433

Q41350133-2D7E9609-9149-4122-89BE-6FA5D3B8F32C

P478

Q41350133-09859C28-1895-4221-A5B2-2AECF5B851AD

P50

Q41350133-6DB1D2CE-2C6F-45BB-A375-0FA96B7F63BC

Q41350133-BAF2F2AA-EF95-42D2-B80D-345A1F1D6E95

P577

Q41350133-7F309747-ECF0-45FC-B359-B9F1390F6565

P698

Q41350133-E63168F5-8B99-4DB7-AC37-602BFBF2C02D

P932

Q41350133-A49AB26E-3F68-4333-82AA-442FBCA7D258

P356

P1433

Molecular and Cellular Biology

P1476

Human DNA polymerase eta is re ...... ng unperturbed DNA replication

@en

P2093

Christophe Cazaux

http://www.w3.org/2001/XMLSchema#string

François Boudsocq

http://www.w3.org/2001/XMLSchema#string

Jean-Sébastien Hoffmann

http://www.w3.org/2001/XMLSchema#string

Laurie Rey

http://www.w3.org/2001/XMLSchema#string

Nadine Puget

http://www.w3.org/2001/XMLSchema#string

Raymond J Monnat

http://www.w3.org/2001/XMLSchema#string

P2860

hRAD30 mutations in the variant form of xeroderma pigmentosum

Structure of the ubiquitin-binding zinc finger domain of human DNA Y-polymerase eta

The FANCJ/MutLalpha interaction is required for correction of the cross-link response in FA-J cells

Human DNA polymerase iota protects cells against oxidative stress

Molecular analysis of mutations in DNA polymerase eta in xeroderma pigmentosum-variant patients

Multiple pathways of recombination induced by double-strand breaks in Saccharomyces cerevisiae

Nucleotide excision repair- and polymerase eta-mediated error-prone removal of mitomycin C interstrand cross-links

Mechanisms of accurate translesion synthesis by human DNA polymerase eta

Break-induced replication: a review and an example in budding yeast

The XPV (xeroderma pigmentosum variant) gene encodes human DNA polymerase eta

P304

3344-3354

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1128/MCB.00115-09

http://www.w3.org/2001/XMLSchema#string

P407

P433

12

http://www.w3.org/2001/XMLSchema#string

P478

29

http://www.w3.org/2001/XMLSchema#string

P50

P577

2009-04-20T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

19380493

http://www.w3.org/2001/XMLSchema#string

P932

2698728

http://www.w3.org/2001/XMLSchema#string