Base excision repair initiation revealed by crystal structures and binding kinetics of human uracil-DNA glycosylase with DNA.
about
Crystal structure of vaccinia virus uracil-DNA glycosylase reveals dimeric assemblyUracil-DNA glycosylase-DNA substrate and product structures: conformational strain promotes catalytic efficiency by coupled stereoelectronic effectsHuman ABH3 structure and key residues for oxidative demethylation to reverse DNA/RNA damageThymine DNA glycosylase specifically recognizes 5-carboxylcytosine-modified DNAStructural analysis of an Escherichia coli endonuclease VIII covalent reaction intermediate.Modification of the human thymine-DNA glycosylase by ubiquitin-like proteins facilitates enzymatic turnoverCrystal structure of the Lactococcus lactis formamidopyrimidine-DNA glycosylase bound to an abasic site analogue-containing DNA.Crystal structure of a repair enzyme of oxidatively damaged DNA, MutM (Fpg), from an extreme thermophile, Thermus thermophilus HB8Molecular basis for discriminating between normal and damaged bases by the human alkyladenine glycosylase, AAGUracil-DNA glycosylases SMUG1 and UNG2 coordinate the initial steps of base excision repair by distinct mechanismsThe alpha/beta fold uracil DNA glycosylases: a common origin with diverse fatesTotal sequence decomposition distinguishes functional modules, "molegos" in apurinic/apyrimidinic endonucleasesAP endonuclease deficiency results in extreme sensitivity to thymidine deprivationDNA glycosylases: in DNA repair and beyondOverview of base excision repair biochemistryEmerging critical roles of Fe-S clusters in DNA replication and repair.Uracil DNA N-glycosylase promotes assembly of human centromere protein ADNA-bound structures and mutants reveal abasic DNA binding by APE1 and DNA repair coordination [corrected]DNA bending and a flip-out mechanism for base excision by the helix–hairpin–helix DNA glycosylase, Escherichia coli AlkAActive and alkylated human AGT structures: a novel zinc site, inhibitor and extrahelical base bindingStructural basis for uracil DNA glycosylase interaction with uracil: NMR study.Solution structure of an oligonucleotide containing an abasic site: evidence for an unusual deoxyribose conformationStructure of formamidopyrimidine-DNA glycosylase covalently complexed to DNADNA damage recognition and repair by 3-methyladenine DNA glycosylase I (TAG)DNA oligonucleotides with A, T, G or C opposite an abasic site: structure and dynamicsCrystal structure of human thymine DNA glycosylase bound to DNA elucidates sequence-specific mismatch recognitionAtomic substitution reveals the structural basis for substrate adenine recognition and removal by adenine DNA glycosylaseStructure of uracil-DNAN-glycosylase (UNG) fromVibrio cholerae: mapping temperature adaptation through structural and mutational analysisStructure of uracil-DNA glycosylase fromMycobacterium tuberculosis: insights into interactions with ligandsExcision of thymine and 5-hydroxymethyluracil by the MBD4 DNA glycosylase domain: structural basis and implications for active DNA demethylationExcision of 5-hydroxymethyluracil and 5-carboxylcytosine by the thymine DNA glycosylase domain: its structural basis and implications for active DNA demethylationStructural Characterization of a Mouse Ortholog of Human NEIL3 with a Marked Preference for Single-Stranded DNAStrandwise translocation of a DNA glycosylase on undamaged DNACrystal structure and functional insights into uracil-DNA glycosylase inhibition by phage 29 DNA mimic protein p56Architecturally diverse proteins converge on an analogous mechanism to inactivate Uracil-DNA glycosylaseStaphylococcus aureus protein SAUGI acts as a uracil-DNA glycosylase inhibitorStructure of the uracil complex ofVaccinia virusuracil DNA glycosylaseStructure-function studies of an unusual 3-methyladenine DNA glycosylase II (AlkA) from Deinococcus radioduransCrystal structure of the vaccinia virus DNA polymerase holoenzyme subunit D4 in complex with the A20 N-terminal domainStructural plasticity in Mycobacterium tuberculosis uracil-DNA glycosylase (MtUng) and its functional implications
P2860
Q21256415-D7B9BECE-4E9A-4E78-956E-254627C58A8EQ22254069-DAC851DE-A57A-4F60-8E32-1059DC5D38B7Q24297842-E82B0423-30E3-467D-A5AA-9F2D270F29CCQ24305161-2175E2E3-11D6-420B-A8FB-788D00B8305FQ24534729-2E4BD0CB-2688-4139-9DC6-9615FC27263CQ24534803-F09E860C-F1A3-4C68-AF5C-A14D8005EBD3Q24536790-B7ED120A-AB7F-405F-99B2-2FE00619ED21Q24630698-1A598E56-3EE1-4A00-8F17-91045A557A6FQ24669704-7EEFC24A-3E49-4AA6-8995-EDC885FABDC0Q24672089-60D800F8-8843-4D55-8826-83FFD133E91DQ24791633-5C6A7C74-6CC4-4989-B41E-72624D986964Q24797920-FD51B4E2-9BC3-4F16-B906-2160F89F4F42Q24814615-6F7E8037-21C3-402E-8650-AF3777BC5972Q26830166-63F757E9-AC77-4126-B60C-32953D3D54F1Q27021659-DEE76F6E-2F63-4DA4-9E32-E8B1E4A79ADDQ27332013-EE7499EB-5EA3-4E3D-9204-97C946674F5BQ27351194-74FC98F1-2626-483C-AFEC-4518CA3313DEQ27621279-1796F75E-67C3-47CF-9421-1ADC9DDB0BF0Q27621390-5840A927-E812-4C83-9932-60D33079ADB4Q27622042-1B4EBE00-1C76-4258-969F-278454DB2822Q27622151-D2F39264-3313-4EB7-A25F-2E08787BA3DAQ27634132-AFC1FB18-8BBA-48E9-9206-ABD865C5EFA6Q27638483-47F7EC7C-D8E7-4572-9687-78C587BBF4ADQ27644362-73B92287-F3A4-43BB-91DD-422D481BC22EQ27649103-7422B943-E52E-4D6B-BCBF-BF7E4B417AD3Q27650995-28F661AA-093A-4E63-B797-0372513069CEQ27657850-5756444D-9272-409D-B45C-32B66F38FF52Q27659441-9A25C19B-160B-4207-84AE-BDA7FD9D03D6Q27663914-F94AC5F6-F482-4E70-8484-9E989A9EB2D6Q27670542-39A57664-31FD-4125-A279-92F8FE287346Q27672864-DB6C42B3-BE6A-4E32-84A5-40C2C30E2469Q27675877-3E2C9D20-2682-4650-882D-CDE1A6F634E5Q27676544-50BC76AA-0271-4E26-8FFA-2534918640B5Q27678127-9A8B1450-D61B-43A6-A25C-46D8459BA3D5Q27679222-FE9585E8-3205-477F-AF4F-E3506CB5970DQ27680428-DB262EB1-0136-4A5D-B497-023A663DDF0BQ27680821-22635097-79A6-461D-932D-B6AC2FA2BD64Q27681054-D0D5BCA3-A0D1-4D4D-9D36-9FFB2C7CED81Q27682037-995527FE-20AD-41B3-B8D5-1624EEC649B0Q27701464-CBCC84E0-5FB9-41EC-9BB9-A80738012D9C
P2860
Base excision repair initiation revealed by crystal structures and binding kinetics of human uracil-DNA glycosylase with DNA.
description
1998 nî lūn-bûn
@nan
1998 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
1998 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
name
Base excision repair initiatio ...... acil-DNA glycosylase with DNA.
@ast
Base excision repair initiatio ...... acil-DNA glycosylase with DNA.
@en
type
label
Base excision repair initiatio ...... acil-DNA glycosylase with DNA.
@ast
Base excision repair initiatio ...... acil-DNA glycosylase with DNA.
@en
prefLabel
Base excision repair initiatio ...... acil-DNA glycosylase with DNA.
@ast
Base excision repair initiatio ...... acil-DNA glycosylase with DNA.
@en
P2093
P2860
P356
P1433
P1476
Base excision repair initiatio ...... acil-DNA glycosylase with DNA.
@en
P2093
P2860
P304
P356
10.1093/EMBOJ/17.17.5214
P407
P577
1998-09-01T00:00:00Z