Structure and function of the components of the human DNA mismatch repair system. - Wikidata - wikimedia - TriplyDB

Structure and function of the components of the human DNA mismatch repair system.

Structure and function of the components of the human DNA mismatch repair system.

http://www.wikidata.org/entity/Q36521428

about

Current hypotheses on how microsatellite instability leads to enhanced survival of Lynch Syndrome patients Mutator pathways unleashed by epigenetic silencing in human cancer Fibroblast-like synoviocytes: key effector cells in rheumatoid arthritis Microsatellite instability in colorectal cancer Impact of DNA mismatch repair system alterations on human fertility and related treatments A review of the clinical relevance of mismatch-repair deficiency in ovarian cancer Stabilization of mismatch repair gene PMS2 by glycogen synthase kinase 3beta is implicated in the treatment of cervical carcinoma Genetic testing for hereditary colorectal cancer.The biochemical basis of microsatellite instability and abnormal immunohistochemistry and clinical behavior in Lynch syndrome: from bench to bedside Replicative Stress and the FHIT Gene: Roles in Tumor Suppression, Genome Stability and Prevention of Carcinogenesis.Allelic imbalance at p53 and microsatellite instability are predictive markers for resistance to chemotherapy in gastric carcinoma Pharmacogenetics research on chemotherapy resistance in colorectal cancer over the last 20 years Analysis of microsatellite polymorphism in inbred knockout mice.Features of ovarian cancer in Lynch syndrome (Review).miR-21 induces cell cycle at S phase and modulates cell proliferation by down-regulating hMSH2 in lung cancer.DNA methyltransferases, DNA damage repair, and cancer The mechanism of mismatch repair and the functional analysis of mismatch repair defects in Lynch syndrome.ARID1A expression in gastric adenocarcinoma: clinicopathological significance and correlation with DNA mismatch repair status.Relationship between DNA Mismatch Repair Deficiency and Endometrial Cancer.Loss of MSH2 protein expression is a risk factor in early stage cervical cancer Molecular signaling mechanisms of apoptosis in hereditary non-polyposis colorectal cancer Epigenetic-genetic interactions in the APC/WNT, RAS/RAF, and P53 pathways in colorectal carcinoma Mismatch repair deficiencies transforming stem cells into cancer stem cells and therapeutic implications.Overexpression of MutSα Complex Proteins Predicts Poor Prognosis in Oral Squamous Cell Carcinoma.Strategies to identify the Lynch syndrome among patients with colorectal cancer: a cost-effectiveness analysis.Clinical significance of epigenetic inactivation of hMLH1 and BRCA1 in Tunisian patients with invasive breast carcinoma.Low expression of MSH2 DNA repair protein is associated with poor prognosis in head and neck squamous cell carcinoma.Tumor spectrum in lynch syndrome, DNA mismatch repair system and endogenous carcinogens.MicroRNAs in lung cancer.Exo1 independent DNA mismatch repair involves multiple compensatory nucleases.Predictive biomarkers along gastric cancer pathogenetic pathways.Immunohistochemistry versus microsatellite instability testing for screening colorectal cancer patients at risk for hereditary nonpolyposis colorectal cancer syndrome. Part I. The utility of immunohistochemistry.Differential antineoplastic effects of butyrate in cells with and without a functioning DNA mismatch repair.Immunohistochemical analysis of mismatch proteins in carcinogenesis of the lower lip.Recent findings on epigenetic gene abnormalities involved in uterine cancer.Human DNA polymerase delta double-mutant D316A;E318A interferes with DNA mismatch repair in vitro.Diagnostic, Predictive, Prognostic, and Therapeutic Molecular Biomarkers in Third Millennium: A Breakthrough in Gastric Cancer.Cadmium-induced microsatellite instability in the kidneys and leukocytes of C57BL/6J mice.hMLH1 immunoexpression is related to the degree of epithelial dysplasia in oral leukoplakia.Gene expression of the mismatch repair gene MSH2 in primary colorectal cancer.

P2860

Q21328691-23013E69-CF67-42BA-A543-3902F66182BD Q22242850-A2BFAEDE-3690-4DE3-B4D3-315ED410EDE1 Q24598633-59002F4F-0F8D-42BA-AC85-46C300B49B81 Q24627393-F5C6C8FA-8E64-40A7-98A9-FA2B9D7E8A80 Q28074585-6A48E867-E092-4D01-A551-0924526BE719 Q28283356-EA7D5743-0604-42FA-BCBD-D8C76BD4733D Q33533641-B208A050-F22C-44D2-88BB-AFBD7292514C Q33649978-AD069E30-925E-46C1-BC8D-422EDE5ACEA8 Q33762979-4843A92D-0045-4A34-8F47-FEA7137F68A8 Q33820327-8D07A2EE-06AE-4EA7-960A-6F5BB621155A Q33832043-013FF63E-1A50-411A-A082-D0F88A3ABE8A Q34008793-DC8F1F09-975A-46B6-8DC9-A4231E3B19CB Q34235281-0CC2A17B-93DE-4679-8057-620BF6BC7939 Q34265940-5FBE4056-34BA-44EF-8DF2-EDC8226E4012 Q34288764-9F855355-BBDB-46FE-8D37-ACA6A917C38D Q34298096-D61FC7F1-C31A-4C39-AAB4-AA6099976BBE Q34533276-0B4B19EE-EB8B-4FB1-A04E-EBBA1557400E Q35078072-C42B2392-02CB-44F8-8C35-73EDF1D07918 Q35607535-EAF59CF8-D5DB-4E86-992B-C4CBCC80DE4E Q36017195-A75EE485-B191-4499-A4D3-EBA54F798816 Q36057058-70694340-8F63-4446-A3EA-462BEB4B9986 Q36529734-BF23389D-3FA8-41ED-88F5-EC998D4CC8F2 Q36779731-43AF2EB9-DF3D-4FFC-9584-7E376E6A729F Q36988709-6B803BE4-BC2E-4767-9C2A-10E140B4353D Q37221791-353B6D46-DE66-4603-B818-0F9526641FB6 Q37280294-C6370415-7013-44C3-8E12-0ED44ADDF6AF Q37437757-6BA9B1E4-2229-4190-9DAA-99BC60AC3307 Q37978580-BC5366F8-67EB-4D05-9E31-412986A12632 Q38261676-7C216CD2-2DD7-44B0-95CB-50007EA3900A Q38974172-D71439D5-5883-45A5-973C-F43E1FA1927D Q39170872-D26A9969-AC18-4ED6-B23D-A74583F4A4F2 Q39514722-E9E2DD13-4F81-4A71-A3ED-6269CE06108D Q39756970-53003649-468B-4275-854A-E77D3CE085CF Q43719234-3A165164-A77F-424B-91ED-AC232528D37D Q47153989-E4EA6F97-1280-40B5-821E-AE65C5CF3040 Q47766916-2B5A590F-B931-4901-B374-CC2F36203ECD Q48379063-0D937FE9-8580-46CB-8CB9-E31704A0FD62 Q53244063-8D861AF5-7C12-4D3A-8CF0-BC319D7174AD Q53294155-4D63A0EF-221F-4148-A39E-DEF84C9299F5 Q54361160-1EF86840-71C0-46B3-9D4D-E9A4D050E42F

P2860

Structure and function of the components of the human DNA mismatch repair system.

http://www.wikidata.org/entity/Q36521428

description

2006 nî lūn-bûn

@nan

2006年の論文

@ja

2006年論文

@yue

2006年論文

@zh-hant

2006年論文

@zh-hk

2006年論文

@zh-mo

2006年論文

@zh-tw

2006年论文

@wuu

2006年论文

@zh

2006年论文

@zh-cn

name

Structure and function of the components of the human DNA mismatch repair system.

@ast

Structure and function of the components of the human DNA mismatch repair system.

@en

type

label

Structure and function of the components of the human DNA mismatch repair system.

@ast

Structure and function of the components of the human DNA mismatch repair system.

@en

prefLabel

Structure and function of the components of the human DNA mismatch repair system.

@ast

Structure and function of the components of the human DNA mismatch repair system.

@en

P1433

Q36521428-13917C7C-45DE-423A-BC38-881B52F9A049

P1476

Q36521428-D8FD3D8F-02D1-4C9F-927D-F2D800AAC7A4

P2093

Q36521428-2B8E7605-21ED-4AEC-B2C9-8D44A2774FCC

Q36521428-33B70540-21CD-42B5-993D-9BAFB085FCD6

P2860

Q36521428-147B86BA-EC41-4B9A-9717-DDADF4CDC378

Q36521428-1686F30E-1B3D-4152-BB5E-C4073F3F62AA

Q36521428-22E68989-9611-422A-BDBE-33766F514AAC

Q36521428-258127D2-8633-4BB1-AB0F-DFBE861C8ECF

Q36521428-31D6B4FD-84BC-4A28-BCF3-6354E3DDCAA5

Q36521428-3FF7920D-8454-4504-8D69-B61CA371D7AF

Q36521428-43540035-AEB2-4D6F-8529-22EDEFC488F3

Q36521428-43FB2585-CBD9-4B53-BF1B-C16B3787732B

Q36521428-49CB16E6-383A-4A7E-88EB-EBD3D71F39DF

Q36521428-4C846614-444A-40E0-8DA6-C54D01EF399B

P304

Q36521428-2AAE231D-2E58-47BC-A2B4-48671DD3F347

P31

Q36521428-CF1B4E00-7632-4273-8EC8-8ECE7015CD50

P356

Q36521428-3C938234-EAD2-4836-9036-37572F51530F

P433

Q36521428-C6CFBFE3-E1F4-4831-87B6-7B9DC9D8513E

P478

Q36521428-A5C0F890-68DD-47F4-BCA3-9F360BDA4AC9

P577

Q36521428-888D1E7D-A97B-429B-A463-B820E2E0A3B3

P5875

Q36521428-D6FE448A-B346-4665-BF09-3A066C19DBB8

P698

Q36521428-F0ACBABA-B65C-4B65-A855-CFA70B288C06

P356

P1433

International Journal of Cancer

P1476

Structure and function of the components of the human DNA mismatch repair system.

@en

P2093

C Richard Boland

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

Thomas Jascur

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

P2860

Human exonuclease I is required for 5' and 3' mismatch repair

A defined human system that supports bidirectional mismatch-provoked excision

hMutS alpha is protected from ubiquitin-proteasome-dependent degradation by atypical protein kinase C zeta phosphorylation

MSH2 and ATR form a signaling module and regulate two branches of the damage response to DNA methylation

DNA polymerase delta is required for human mismatch repair in vitro

Interaction of mismatch repair protein PMS2 and the p53-related transcription factor p73 in apoptosis response to cisplatin

Identification of the mismatch repair genes PMS2 and MLH1 as p53 target genes by using serial analysis of binding elements

ATM-mediated stabilization of hMutL DNA mismatch repair proteins augments p53 activation during DNA damage

Tumor microsatellite-instability status as a predictor of benefit from fluorouracil-based adjuvant chemotherapy for colon cancer

Eukaryotic DNA mismatch repair.

P304

2030-2035

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

P31

scholarly article

P356

10.1002/IJC.22023

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

P433

9

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

P478

119

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

P577

2006-11-01T00:00:00Z

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

P5875

6979595

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

P698

16804905

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