Bipartite substrate discrimination by human nucleotide excision repair
about
Involvement of nucleotide excision and mismatch repair mechanisms in double strand break repairSite-specific incorporation of N-(deoxyguanosin-8-yl)-2-acetylaminofluorene (dG-AAF) into oligonucleotides using modified 'ultra-mild' DNA synthesisNucleotide Excision Repair and Vitamin D--Relevance for Skin Cancer TherapyNucleotide excision repair in eukaryotesRecognition of Damaged DNA for Nucleotide Excision Repair: A Correlated Motion Mechanism with a Mismatched cis-syn Thymine Dimer Lesion.Crystal Structure of the FeS Cluster–Containing Nucleotide Excision Repair Helicase XPDAberrant mobility phenomena of the DNA repair protein XPACockayne syndrome: varied requirement of transcription-coupled nucleotide excision repair for the removal of three structurally different adducts from transcribed DNANucleotide excision repair efficiencies of bulky carcinogen-DNA adducts are governed by a balance between stabilizing and destabilizing interactionsThe human DNA repair factor XPC-HR23B distinguishes stereoisomeric benzo[a]pyrenyl-DNA lesionsDifferential nucleotide excision repair susceptibility of bulky DNA adducts in different sequence contexts: hierarchies of recognition signalsRecognition of nonhybridizing base pairs during nucleotide excision repair of DNADouble-check probing of DNA bending and unwinding by XPA-RPA: an architectural function in DNA repair.Binding and repair of mismatched DNA mediated by Rhp14, the fission yeast homologue of human XPA.Human XPA and RPA DNA repair proteins participate in specific recognition of triplex-induced helical distortionsMolecular anatomy of the human excision nuclease assembled at sites of DNA damage.Order of assembly of human DNA repair excision nuclease.Assembly, subunit composition, and footprint of human DNA repair excision nuclease.Repair kinetics of trans-4-hydroxynonenal-induced cyclic 1,N2-propanodeoxyguanine DNA adducts by human cell nuclear extractsTargeted inhibition of Replication Protein A reveals cytotoxic activity, synergy with chemotherapeutic DNA-damaging agents, and insight into cellular function.Localization of xeroderma pigmentosum group A protein and replication protein A on damaged DNA in nucleotide excision repair.Short-patch correction of C/C mismatches in human cells.The role of XPC: implications in cancer and oxidative DNA damageIncision of DNA-protein crosslinks by UvrABC nuclease suggests a potential repair pathway involving nucleotide excision repair.Simulating structural and thermodynamic properties of carcinogen-damaged DNA.Relating repair susceptibility of carcinogen-damaged DNA with structural distortion and thermodynamic stabilityOxidative DNA damage and nucleotide excision repair.Structure-function analysis of the EF-hand protein centrin-2 for its intracellular localization and nucleotide excision repairThermodynamic and structural factors in the removal of bulky DNA adducts by the nucleotide excision repair machinery.Nucleotide excision repair in rat male germ cells: low level of repair in intact cells contrasts with high dual incision activity in vitroResistance of bulky DNA lesions to nucleotide excision repair can result from extensive aromatic lesion-base stacking interactions.Probing for DNA damage with β-hairpins: similarities in incision efficiencies of bulky DNA adducts by prokaryotic and human nucleotide excision repair systems in vitroLack of recognition by global-genome nucleotide excision repair accounts for the high mutagenicity and persistence of aristolactam-DNA adducts.The Adaptive Significance of Natural Genetic Variation in the DNA Damage Response of Drosophila melanogasterMolecular mechanisms of xeroderma pigmentosum (XP) proteins.Polyvalent Proteins, a Pervasive Theme in the Intergenomic Biological Conflicts of Bacteriophages and Conjugative Elements.The efficiencies of damage recognition and excision correlate with duplex destabilization induced by acetylaminofluorene adducts in human nucleotide excision repair.Base pair conformation-dependent excision of benzo[a]pyrene diol epoxide-guanine adducts by human nucleotide excision repair enzymes.Pre-steady-state binding of damaged DNA by XPC-hHR23B reveals a kinetic mechanism for damage discrimination.A C. elegans homolog for the UV-hypersensitivity syndrome disease gene UVSSA.
P2860
Q24649491-D77CCC26-AC8F-447F-9CCE-ECC0D6BA6DB7Q24791546-48F16AFC-98F1-439C-A832-D92CC06DE70EQ26750627-341C9359-2341-40DD-9823-FF5BBADA5026Q26850656-4F4D7F49-190A-4115-ABE7-416506673079Q27301752-DDE3942E-68C3-4751-9513-33FCD55D4B80Q27650943-A01AFCCF-6E66-44EF-9AE7-880D6710BCABQ28367384-5040D2B4-9A40-499A-AA7F-F5AB842CE975Q28537642-304E2A05-503C-4711-B9DD-775758FBAF98Q28731587-9DCAA1B0-7847-4022-A85F-C0D391889490Q28757533-8AE4B89B-E80A-4EF4-81E1-D929CC969602Q30487557-09401FA7-2983-401B-8B27-3BA25488D9D5Q30639682-5F37C6A3-BA08-4193-9F3B-74D22A14BAF0Q30684974-14F9BE85-5308-41E7-8334-C5346C8CE72FQ30993003-AA0C42D8-6EB6-48E8-911A-84EE4B82CA21Q31049492-A0F96F2D-F146-4EA3-BEE3-092C2494FBBFQ31097811-25A4FD45-ECEC-4CF9-9EC3-EFCBD792BF8BQ31326797-8C741195-16E0-4D61-A07D-EA270439A43FQ32061670-26E6BDD7-DEDF-4F7D-8715-B28086470BFFQ33203516-29C8DEDD-EB4D-4EE2-9656-C661458CCC7BQ33556289-FC175A7E-E616-4518-B7DE-8F514DCD68DBQ33652377-9D3A56DD-CB8D-49BE-9BEC-8CE48ADA5D80Q33754438-C3FC7F32-B1AB-4507-8010-FFE9B8C41624Q33962926-52538452-B214-47EE-9643-BAC13381F744Q34011521-B6E0AE4A-2D1F-4688-91E5-72786B758793Q34180745-998F9F2E-FD8A-472C-AEEC-7314A8B8819FQ34366187-21EBE927-E543-46DA-A94F-F8680F0C5191Q34502142-06D087C9-E37D-4FF6-A2AC-A02772491D28Q34743642-CECAFE66-95E8-4807-A70A-9EC40B0D3D4CQ34850233-26AAB2EF-E372-421B-8BDD-2D38E3DDEB63Q35091162-3C52EFCF-33E4-4654-8CAC-108BF780BF09Q35468354-68F97DD4-5C3D-4BB5-92C8-6C0800329D49Q35540743-90DA6E5E-8522-47D5-B2E3-A9F15A07DDAFQ35860570-316A3E87-DACB-48CC-B851-4B23ABDA7724Q35947736-6DEF40D1-D085-4C84-B45F-DE3A0B221D7EQ36142135-A63AA224-C953-4B97-81A4-4702E73BF808Q36385479-8E304427-20AC-4F5B-9F76-A824707E1961Q36413249-4EE1EA5C-DEA7-4E02-B038-EA4C50C76DACQ36573952-13D42EA5-F172-4561-A639-5F50CD6DD397Q36731384-56E14319-88CC-4A39-84FE-D866A055AEBAQ36951003-673F5067-2BB5-44B4-A804-7933BADFBDC7
P2860
Bipartite substrate discrimination by human nucleotide excision repair
description
1997 nî lūn-bûn
@nan
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
1997年论文
@zh
1997年论文
@zh-cn
name
Bipartite substrate discrimination by human nucleotide excision repair
@ast
Bipartite substrate discrimination by human nucleotide excision repair
@en
type
label
Bipartite substrate discrimination by human nucleotide excision repair
@ast
Bipartite substrate discrimination by human nucleotide excision repair
@en
prefLabel
Bipartite substrate discrimination by human nucleotide excision repair
@ast
Bipartite substrate discrimination by human nucleotide excision repair
@en
P2093
P2860
P356
P1476
Bipartite substrate discrimination by human nucleotide excision repair
@en
P2093
P2860
P304
P356
10.1073/PNAS.94.13.6664
P407
P577
1997-06-01T00:00:00Z