Binding of the human nucleotide excision repair proteins XPA and XPC/HR23B to the 5R-thymine glycol lesion and structure of the cis-(5R,6S) thymine glycol epimer in the 5'-GTgG-3' sequence: destabilization of two base pairs at the lesion site - Test2 - elhamkhani - TriplyDB

Binding of the human nucleotide excision repair proteins XPA and XPC/HR23B to the 5R-thymine glycol lesion and structure of the cis-(5R,6S) thymine glycol epimer in the 5'-GTgG-3' sequence: destabilization of two base pairs at the lesion site

Binding of the human nucleotide excision repair proteins XPA and XPC/HR23B to the 5R-thymine glycol lesion and structure of the cis-(5R,6S) thymine glycol epimer in the 5'-GTgG-3' sequence: destabilization of two base pairs at the lesion site

http://www.wikidata.org/entity/Q27658074

about

Protein Recognition in Drug-Induced DNA Alkylation: When the Moonlight Protein GAPDH Meets S23906-1/DNA Minor Groove Adducts A Crystallographic Study of the Role of Sequence Context in Thymine Glycol Bypass by a Replicative DNA Polymerase Serendipitously Sheds Light on the Exonuclease Complex Structure of (5′ S )-8,5′-Cyclo-2′-deoxyguanosine in DNA Structural Characterization of Viral Ortholog of Human DNA Glycosylase NEIL1 Bound to Thymine Glycol or 5-Hydroxyuracil-containing DNA Base excision repair: a critical player in many games DNA-Destabilizing Agents as an Alternative Approach for Targeting DNA: Mechanisms of Action and Cellular Consequences Is thymidine glycol containing DNA a substrate of E. coli DNA mismatch repair system?Interaction between polymorphisms of DNA repair genes significantly modulated bladder cancer risk.Chemistry and structural biology of DNA damage and biological consequences Occurrence, Biological Consequences, and Human Health Relevance of Oxidative Stress-Induced DNA Damage.Xeroderma pigmentosum group C protein interacts with histones: regulation by acetylated states of histone H3.Repair-Resistant DNA Lesions.Single-Molecule Imaging Reveals that Rad4 Employs a Dynamic DNA Damage Recognition Process A 3' untranslated region polymorphism rs2304277 in the DNA repair pathway gene OGG1 is a novel risk modulator for urothelial bladder carcinoma.Hydrolysis of the damaged deoxythymidine glycol nucleoside and comparison to canonical DNA.MicroRNA binding mediated Functional sequence variant in 3'-UTR of DNA repair Gene XPC in Age-related Cataract

P2860

Q26778143-9DE84D02-32B3-4776-A71C-BCB395056908 Q27670953-D47B7E68-2418-4475-A163-C8DCAAF1D96E Q27675728-FAA0D1B7-50B4-4529-A91D-64A1B64C4477 Q27676196-7B3785DF-4B51-406D-ADAF-28BBCA9F8A01 Q33908163-B3CBDE03-CDB3-4F6F-94F4-0163780DEE79 Q34042848-0D8947AA-87D8-4B65-A4DA-01C2D4D24074 Q35227178-EEA8CE99-DF0F-4397-8BBA-2FE397492D85 Q36190208-E14A0702-6A45-448F-8359-D21A56D2DB59 Q37933191-A1640B02-3BD0-49DA-B370-14FCED28C122 Q38434331-AAC4DA56-DC0A-4DD1-9F11-6DEAD6896495 Q38715086-13C1A9DA-3E07-431B-99D1-FF6A4BD6A9D1 Q41508281-28283B84-FCA9-4C52-998F-AB3AAE8670AF Q42363341-D91EFA3F-2B2C-4DCE-8A74-840E253B1465 Q48048949-45FB09B8-96BE-4483-8842-673CECB41E1B Q54768076-E9C3C2F6-8314-444B-A01F-1FAA1767DF9C Q57472768-56F411B0-D538-41D7-882A-6A41118F7031

P2860

Binding of the human nucleotide excision repair proteins XPA and XPC/HR23B to the 5R-thymine glycol lesion and structure of the cis-(5R,6S) thymine glycol epimer in the 5'-GTgG-3' sequence: destabilization of two base pairs at the lesion site

http://www.wikidata.org/entity/Q27658074

description

2010 nî lūn-bûn

@nan

2010 թուականի Յունուարին հրատարակուած գիտական յօդուած

@hyw

2010 թվականի հունվարին հրատարակված գիտական հոդված

@hy

2010年の論文

@ja

2010年論文

@yue

2010年論文

@zh-hant

2010年論文

@zh-hk

2010年論文

@zh-mo

2010年論文

@zh-tw

2010年论文

@wuu

name

Binding of the human nucleotid ...... base pairs at the lesion site

@ast

Binding of the human nucleotid ...... base pairs at the lesion site

@en

Binding of the human nucleotid ...... base pairs at the lesion site

@nl

type

label

Binding of the human nucleotid ...... base pairs at the lesion site

@ast

Binding of the human nucleotid ...... base pairs at the lesion site

@en

Binding of the human nucleotid ...... base pairs at the lesion site

@nl

prefLabel

Binding of the human nucleotid ...... base pairs at the lesion site

@ast

Binding of the human nucleotid ...... base pairs at the lesion site

@en

Binding of the human nucleotid ...... base pairs at the lesion site

@nl

P1433

Q27658074-6ED303FC-C257-495F-9C14-6018E95CA708

P1476

Q27658074-DF5838C2-DD8F-4F0D-A5EC-3B7617BD8054

P2093

Q27658074-05BC6B49-E4ED-4272-902E-B3A22AA03B6E

Q27658074-187776A4-A481-4C3B-9349-AC0FB759FD6D

Q27658074-35D99116-03DB-4F6E-8A31-EF567594C304

Q27658074-7D1C96D8-33B2-4FCE-8358-2242F67DAF00

Q27658074-81538255-A18E-431F-898A-87B4DC13B517

Q27658074-E3C90AC4-38D4-47E5-AABB-2311620BECD5

P2860

Q27658074-0522FE00-48D0-4AD2-9E99-ECF25F77931D

Q27658074-0BB385A6-1758-4B3E-81EA-C2E5BB9314CE

Q27658074-0E1B1291-D264-4995-9C0B-C39F3FE500EE

Q27658074-0E33D227-EE67-4FF1-B2A0-A849E23AAA7D

Q27658074-0F9C4766-3306-44FE-921B-B9C6CE9388A2

Q27658074-117898A3-CF8C-4137-9035-957B39489E81

Q27658074-11BFD74C-810D-4392-84D4-BE70EE4CE8B0

Q27658074-12C7F2D7-1F2A-4FBA-B333-6BC4AEEE542B

Q27658074-14E055F1-4F8C-4479-A73D-6989375A94BA

Q27658074-15B55793-3F3A-470E-B59D-BED18AFC9FB7

P304

Q27658074-F69BBC9C-6F16-446F-A218-BAD7C051F825

P31

Q27658074-23067757-A6E4-4479-B7C3-A0C367779208

P356

Q27658074-4B573D2F-0A32-4154-AD60-E3454A1C0FE7

P407

Q27658074-F9FA8EC8-E171-4789-A835-1192F46424B9

P433

Q27658074-F9CAFB0E-D62B-4119-9739-15FFCC3182AF

P478

Q27658074-F147A9FA-9D1E-4E04-97FA-9B039C173B25

P577

Q27658074-29D0734D-C1BF-4A89-AE94-E6BC97C666F6

P5875

Q27658074-10A58ECF-6764-4824-ACA4-EA45B01DB173

P698

Q27658074-8E41CAE0-C4C1-4B71-9F5B-0CDE56E9F2BB

P932

Q27658074-EDB91B10-40E2-40BE-858E-6887CA45E5E6

P356

P1433

Nucleic Acids Research

P1476

Binding of the human nucleotid ...... base pairs at the lesion site

@en

P2093

Alvin Altamirano

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

Ashis K Basu

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

Kyle L Brown

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

Marina Roginskaya

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

Michael P Stone

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

Yue Zou

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

P2860

Purification and cloning of a nucleotide excision repair complex involving the xeroderma pigmentosum group C protein and a human homologue of yeast RAD23

Cloning and characterization of a functional human homolog of Escherichia coli endonuclease III

In vitro repair of oxidative DNA damage by human nucleotide excision repair system: possible explanation for neurodegeneration in xeroderma pigmentosum patients

A molecular mechanism for DNA damage recognition by the xeroderma pigmentosum group C protein complex

Identification and characterization of a human DNA glycosylase for repair of modified bases in oxidatively damaged DNA

The comings and goings of nucleotide excision repair factors on damaged DNA

Sequence effects of aminofluorene-modified DNA duplexes: thermodynamic and circular dichroism properties

Effects of Diffusion on Free Precession in Nuclear Magnetic Resonance Experiments

A structural rationale for stalling of a replicative DNA polymerase at the most common oxidative thymine lesion, thymine glycol

Recognition of DNA damage by the Rad4 nucleotide excision repair protein

P304

428-40

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

P31

scholarly article

P356

10.1093/NAR/GKP844

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

P407

P433

2

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

P478

38

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

P577

2010-01-01T00:00:00Z

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

P5875

38070322

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

P698

19892827

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

P932

2811006

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