Biochemistry
 2024
DOI: 10.1021/acs.biochem.4c00161
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Signal Propagation in the ATPase Domain of Mycobacterium tuberculosis DNA Gyrase from Dynamical-Nonequilibrium Molecular Dynamics Simulations

Bundit Kamsri,
Pharit Kamsri,
Auradee Punkvang
et al.

Abstract: DNA gyrases catalyze negative supercoiling of DNA, are essential for bacterial DNA replication, transcription, and recombination, and are important antibacterial targets in multiple pathogens, including Mycobacterium tuberculosis, which in 2021 caused >1.5 million deaths worldwide. DNA gyrase is a tetrameric (A2B2) protein formed from two subunit types: gyrase A (GyrA) carries the breakage-reunion active site, whereas gyrase B (GyrB) catalyzes ATP hydrolysis required for energy transduction and DNA translocati… Show more

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Dynamical responses predict a distal site that modulates activity in an antibiotic resistance enzyme

Beer,
Oliveira,
Tooke
et al. 2024
Chem. Sci.
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Dynamical responses predict a distal site that modulates activity in an antibiotic resistance enzyme

Beer,
Oliveira,
Tooke
et al. 2024
Chem. Sci.
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Dynamical nonequilibrium molecular dynamics simulations reveal allosteric networks, signal transduction mechanisms, and sites associated with drug resistance in biomolecular systems

Balega,
Beer,
Spencer
et al. 2024
Molecular Physics
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