Structural basis of quinolone inhibition of type IIA topoisomerases and target-mediated resistance. Nat Struct Mol Biol 17(9): 1152-1153

Wohlkonig, Alexandre; Chan, Pan F.; Fosberry, Andrew P.; Homes, Paul; Huang, Jianzhong; Kranz, Michael; Leydon, Vaughan R.; Miles, Timothy J.; Pearson, Neil D.; Perera, Rajika L.; Shillings, Anthony J.; Gwynn, Michael N.; Bax, Benjamin D.

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Nature Research, Nature Structural and Molecular Biology, 9(17), p. 1152-1153, 2010

DOI: 10.1038/nsmb.1892

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Structural basis of quinolone inhibition of type IIA topoisomerases and target-mediated resistance. Nat Struct Mol Biol 17(9): 1152-1153

Journal article published in 2010 by Alexandre Wohlkonig, Pan F. Chan, Andrew P. Fosberry, Paul Homes, Jianzhong Huang, Michael Kranz, Vaughan R. Leydon, Timothy J. Miles, Neil D. Pearson, Rajika L. Perera, Anthony J. Shillings, Michael N. Gwynn, Benjamin D. Bax

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Abstract

Quinolone antibacterials have been used to treat bacterial infections for over 40 years. A crystal structure of moxifloxacin in complex with Acinetobacter baumannii topoisomerase IV now shows the wedge-shaped quinolone stacking between base pairs at the DNA cleavage site and binding conserved residues in the DNA cleavage domain through chelation of a noncatalytic magnesium ion. This provides a molecular basis for the quinolone inhibition mechanism, resistance mutations and invariant quinolone antibacterial structural features.

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Structural basis of quinolone inhibition of type IIA topoisomerases and target-mediated resistance. Nat Struct Mol Biol 17(9): 1152-1153

Abstract