Processive DNA synthesis observed in a polymerase crystal suggests a mechanism for the prevention of frameshift mutations.
about
Stable complexes formed by HIV-1 reverse transcriptase at distinct positions on the primer-template controlled by binding deoxynucleoside triphosphates or foscarnetStructures of phi29 DNA polymerase complexed with substrate: the mechanism of translocation in B-family polymerases.Stepwise translocation of Dpo4 polymerase during error-free bypass of an oxoG lesion.Mechanism of the nucleotidyl-transfer reaction in DNA polymerase revealed by time-resolved protein crystallographyAntimutator variants of DNA polymerasesThe Closing Mechanism of DNA Polymerase I at Atomic ResolutionMolecular dynamics study of the opening mechanism for DNA polymerase IA new paradigm of DNA synthesis: three-metal-ion catalysis.Stabilization of Poliovirus Polymerase by NTP Binding and Fingers–Thumb InteractionsStructure-function relationships among RNA-dependent RNA polymerasesThe structural basis for the mutagenicity of O6-methyl-guanine lesionsSequential structures provide insights into the fidelity of RNA replicationStructural insights into mechanisms of catalysis and inhibition in Norwalk virus polymeraseSubstrate-induced DNA strand misalignment during catalytic cycling by DNA polymerase λThe Mechanism of the Translocation Step in DNA Replication by DNA Polymerase I: A Computer Simulation AnalysisStructural basis for active site closure by the poliovirus RNA-dependent RNA polymeraseX-ray crystal structures elucidate the nucleotidyl transfer reaction of transcript initiation using two nucleotides.The structure of a high fidelity DNA polymerase bound to a mismatched nucleotide reveals an "ajar" intermediate conformation in the nucleotide selection mechanism.Watching DNA polymerase η make a phosphodiester bondMolecular Insights into DNA Polymerase Deterrents for Ribonucleotide InsertionStructural evidence for the rare tautomer hypothesis of spontaneous mutagenesisWatching the Bacteriophage N4 RNA Polymerase Transcription by Time-dependent Soak-trigger-freeze X-ray CrystallographyStructural Factors That Determine Selectivity of a High Fidelity DNA Polymerase for Deoxy-, Dideoxy-, and RibonucleotidesUnexpected non-Hoogsteen-based mutagenicity mechanism of FaPy-DNA lesionsAn overview of Y-Family DNA polymerases and a case study of human DNA polymerase ηDNA Polymerase Conformational Dynamics and the Role of Fidelity-Conferring Residues: Insights from Computational SimulationsOptimal modeling of atomic fluctuations in protein crystal structures for weak crystal contact interactions.Alignment-free local structural search by writhe decompositionMining electron density for functionally relevant protein polysterism in crystal structures.Computer simulations of protein functions: searching for the molecular origin of the replication fidelity of DNA polymerasesVisualizing polynucleotide polymerase machines at workPreferred WMSA catalytic mechanism of the nucleotidyl transfer reaction in human DNA polymerase κ elucidates error-free bypass of a bulky DNA lesion.How a homolog of high-fidelity replicases conducts mutagenic DNA synthesisHighly tolerated amino acid substitutions increase the fidelity of Escherichia coli DNA polymerase I.Enzymatic synthesis of DNA on glycerol nucleic acid templates without stable duplex formation between product and template.Global conformational dynamics of a Y-family DNA polymerase during catalysis.Allosteric regulation of HIV-1 reverse transcriptase by ATP for nucleotide selection.Conformational transitions in DNA polymerase I revealed by single-molecule FRET.Fidelity of Nucleotide Incorporation by the RNA-Dependent RNA Polymerase from Poliovirus.DNA binding strength increases the processivity and activity of a Y-Family DNA polymerase
P2860
Q24682670-3FAD1544-9BDB-430A-94FE-F94CA07D51A0Q24684192-373DE7D5-5C04-40BB-8F4D-944603C0472EQ25257374-8414CA5F-B7F3-4A16-B777-B8B2B653D2BEQ27008294-D504DC5E-2C76-49F6-8AE4-4C2C8F5B863AQ27024636-9C37E4F1-15F0-4D2C-BEDD-94252F914882Q27303590-663DAC25-22B1-45BE-98FA-2723B36B1C2EQ27320227-04F3BF99-650E-4260-B510-67C1063B5556Q27320851-D41688B3-DF67-40DB-BD6D-6D552DD17B42Q27480973-71BCE187-7142-460C-A12A-28F72582E5ABQ27486391-718F177B-793C-4DF9-93E9-5EC9B4E5AD7BQ27640849-0051D87C-5C85-41D2-8F2E-E6096D96D444Q27644844-FB42FF14-E7DA-41CA-A6BA-2A9D28F58F83Q27649505-2C629CA8-E783-4133-8D6F-B93D6C151B56Q27650171-06136F3D-3863-4F5C-BB99-A32749420125Q27659793-01A46084-C166-4BC1-BE3A-C58A91DEF39FQ27666339-A600C919-C9FF-4E3B-BCCB-B6620779B89EQ27666971-87804EFB-B455-4DAE-8572-B53819CDA4EEQ27667374-76845861-889A-4A11-9FF6-A0CDC6F08D2FQ27670704-3F37DD0D-9E94-4801-9618-F11DFEDAE5CAQ27670712-1F29B42C-E6CA-49C8-B4D1-4108FEA3A9D3Q27675110-B44D1F04-359E-444F-983E-D64F58E6FB74Q27675455-8E0644DF-F917-4156-A448-4AFA76CAA816Q27679368-69F62DB5-9A8F-40C6-8ED6-FF7161AA77F2Q27684643-6B462110-A589-4246-BB73-616CE6600639Q28657572-CC1AAC4E-E06E-4891-A474-4E7D05ECB282Q28833304-5F491F0E-3707-4663-9208-FEECA74C4E52Q30384466-424349E8-4491-4EA5-9957-C0110C39B86AQ30387742-ACD47A8E-35EF-494C-B842-0A57568CA9B7Q30397954-48619926-25EE-433D-B910-E86A4480EE3DQ30475845-8F103901-798D-4298-933D-55D160FA9552Q30477785-4714FA4A-2206-4B50-AE41-1E50B082FDBAQ30525569-63AA74D7-92FA-42B0-A450-EF4168D7C962Q30654593-826A5B69-297A-464D-AF85-1C56A5DCBF4BQ33273825-41D657AE-BF0F-4C3B-AD0E-013DD60C9702Q33296956-46FEB447-E375-4379-B4CF-9BDB89C7F542Q33512900-563D4B49-E4B4-4E22-9501-3C459C16E8C6Q33527409-84F7468B-33D2-4102-B8BC-49265C2DEF2CQ33640344-7B4DCF86-BFEA-4D25-834B-9B121BF6669BQ33762867-7574C03A-C49D-482E-8493-AD71ED8DB3BEQ33881411-0FE04261-D1E6-43DA-AF58-1E0E9AEECA3D
P2860
Processive DNA synthesis observed in a polymerase crystal suggests a mechanism for the prevention of frameshift mutations.
description
2003 nî lūn-bûn
@nan
2003 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի մարտին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Processive DNA synthesis obser ...... ention of frameshift mutations
@nl
Processive DNA synthesis obser ...... ntion of frameshift mutations.
@ast
Processive DNA synthesis obser ...... ntion of frameshift mutations.
@en
type
label
Processive DNA synthesis obser ...... ention of frameshift mutations
@nl
Processive DNA synthesis obser ...... ntion of frameshift mutations.
@ast
Processive DNA synthesis obser ...... ntion of frameshift mutations.
@en
prefLabel
Processive DNA synthesis obser ...... ention of frameshift mutations
@nl
Processive DNA synthesis obser ...... ntion of frameshift mutations.
@ast
Processive DNA synthesis obser ...... ntion of frameshift mutations.
@en
P2860
P3181
P356
P1476
Processive DNA synthesis obser ...... ntion of frameshift mutations.
@en
P2093
Jeffrey S Taylor
Lorena S Beese
P2860
P304
P3181
P356
10.1073/PNAS.0630532100
P407
P50
P577
2003-03-20T00:00:00Z