The DNA-gate of Bacillus subtilis gyrase is predominantly in the closed conformation during the DNA supercoiling reaction.
about
DNA cleavage and opening reactions of human topoisomerase IIα are regulated via Mg2+-mediated dynamic bending of gate-DNAStructural Insights into the Quinolone Resistance Mechanism of Mycobacterium tuberculosis DNA GyraseStructure of QnrB1, a Plasmid-mediated Fluoroquinolone Resistance FactorThe ancestral role of ATP hydrolysis in type II topoisomerases: prevention of DNA double-strand breaks.eIF4G stimulates the activity of the DEAD box protein eIF4A by a conformational guidance mechanism.DNA-induced narrowing of the gyrase N-gate coordinates T-segment capture and strand passageGuiding strand passage: DNA-induced movement of the gyrase C-terminal domains defines an early step in the supercoiling cyclePotassium ions are required for nucleotide-induced closure of gyrase N-gateThe GyrA-box determines the geometry of DNA bound to gyrase and couples DNA binding to the nucleotide cycle.Single-molecule FRET reveals nucleotide-driven conformational changes in molecular machines and their link to RNA unwinding and DNA supercoiling.Studying DNA-protein interactions with single-molecule Förster resonance energy transfer.The acidic C-terminal tail of the GyrA subunit moderates the DNA supercoiling activity of Bacillus subtilis gyrase.Structural Dynamics and Mechanochemical Coupling in DNA Gyrase.DNA gyrase with a single catalytic tyrosine can catalyze DNA supercoiling by a nicking-closing mechanism.Comparative Molecular docking analysis of DNA Gyrase subunit A in Pseudomonas aeruginosaPAO1.Why Two? On the Role of (A-)Symmetry in Negative Supercoiling of DNA by Gyrase.Structural insights into the gating of DNA passage by the topoisomerase II DNA-gate
P2860
Q24305044-B18BC2F8-B291-490C-896A-E8F63AD96CA4Q27664232-B7893582-1130-4C05-8A84-5418AAD5A7E0Q27667906-62D5FD22-8623-4672-AF30-A426B13EB9ABQ33351069-8017B545-855B-4BD2-8112-C14127AE8F39Q34723572-F1C4F9C9-F902-4B1A-90C3-78BC0C8C5F29Q35180865-60631AE8-D9CB-47D1-9DCB-CB75BB7A8EFAQ35617292-78694AF5-6E12-4585-BD2D-84A265207763Q35879426-397EE6D5-6765-4D24-8090-9D9921E8504EQ36435135-D6011DF6-04B0-41FF-9C81-14B1108557B4Q37856414-7B1D8B7A-10EC-4424-A45C-8FBD1E17ED7CQ38174426-69322AA3-24B8-4DD1-AA7D-670712E237ABQ39145433-2E62F4B7-BD7F-40F5-AC4D-536329FAA56CQ41596769-8998FB4E-E8FD-48BE-BD2C-EEED94EEA914Q41962734-1A6B5773-EF37-434A-8B2C-6D6BC8332870Q43239971-CC8113BB-8D1A-4417-94DD-903CDEA6F14DQ55227172-41B722FF-2E79-40A2-9B79-210EEDA74BC6Q58799715-8B988809-FA47-4C0F-AF5F-676AFE0DE7D3
P2860
The DNA-gate of Bacillus subtilis gyrase is predominantly in the closed conformation during the DNA supercoiling reaction.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 29 July 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
The DNA-gate of Bacillus subti ...... the DNA supercoiling reaction.
@en
The DNA-gate of Bacillus subti ...... the DNA supercoiling reaction.
@nl
type
label
The DNA-gate of Bacillus subti ...... the DNA supercoiling reaction.
@en
The DNA-gate of Bacillus subti ...... the DNA supercoiling reaction.
@nl
prefLabel
The DNA-gate of Bacillus subti ...... the DNA supercoiling reaction.
@en
The DNA-gate of Bacillus subti ...... the DNA supercoiling reaction.
@nl
P2093
P2860
P356
P1476
The DNA-gate of Bacillus subti ...... the DNA supercoiling reaction.
@en
P2093
Airat Gubaev
Dagmar Klostermeier
Manuel Hilbert
P2860
P304
13278-13283
P356
10.1073/PNAS.0902493106
P407
P577
2009-07-29T00:00:00Z