DNA gyrase, a type II topoisomerase, regulates DNA topology by creating a double-stranded break in one DNA duplex and transporting another DNA duplex [T-DNA (transported DNA)] through this break. The ATPase domains dimerize, in the presence of ATP, to trap the T-DNA segment. Hydrolysis of only one of the two ATPs, and release of the resulting Pi, is ratelimiting in DNA strand passage. A long unresolved puzzle is how the non-hydrolysable ATP analogue AMP-PNP (adenosine 5′-[β,γ-imido]triphosphate) can catalyse one round of DNA strand passage without Pi release. In the present paper we discuss two crystal structures of the Mycobacterium tuberculosis DNA gyrase ATPase domain: one complexed with AMP-PCP (adenosine 5′-[β,γ-methylene]triphosphate) was unexpectedly monomeric, the other, an AMP-PNP complex, crystallized as a dimer. In the AMP-PNP structure, the unprotonated nitrogen (P-N=P imino) accepts hydrogen bonds from a well-ordered ‘ATP lid’, which is known to be required for dimerization. The equivalent CH2 group, in AMP-PCP, cannot accept hydrogen bonds, leaving the ‘ATP lid’ region disordered. Further analysis suggested that AMP-PNP can be converted from the imino (P-N=P) form into the imido form (P-NH-P) during the catalytic cycle. A main-chain NH is proposed to move to either protonate AMP-P-N=P to AMP-P-NH-P, or to protonate ATP to initiate ATP hydrolysis. This suggests a novel dissociative mechanism for ATP hydrolysis that could be applicable not only to GHKL phosphotransferases, but also to unrelated ATPases and GTPases such as Ras. On the basis of the domain orientation in our AMP-PCP structure we propose a mechanochemical scheme to explain how ATP hydrolysis is coupled to domain motion.
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Research Article|
November 08 2013
Mycobacterium tuberculosis DNA gyrase ATPase domain structures suggest a dissociative mechanism that explains how ATP hydrolysis is coupled to domain motion
Alka Agrawal;
Alka Agrawal
1
*Platform Technology Sciences, GlaxoSmithKline, Medicines Research Centre, Gunnels Wood Road, Stevenage, Hertfordshire SG1 2NY, U.K.
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Mélanie Roué;
Mélanie Roué
1
†Unité de Microbiologie Structurale, Institut Pasteur, 75015 Paris, France
‡URA 2185, CNRS, 75015 Paris, France
§Université Paris Diderot, Sorbonne Paris Cité, Cellule Pasteur, 75015 Paris, France
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Claus Spitzfaden;
Claus Spitzfaden
*Platform Technology Sciences, GlaxoSmithKline, Medicines Research Centre, Gunnels Wood Road, Stevenage, Hertfordshire SG1 2NY, U.K.
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Stéphanie Petrella;
Stéphanie Petrella
†Unité de Microbiologie Structurale, Institut Pasteur, 75015 Paris, France
‡URA 2185, CNRS, 75015 Paris, France
§Université Paris Diderot, Sorbonne Paris Cité, Cellule Pasteur, 75015 Paris, France
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Alexandra Aubry;
Alexandra Aubry
∥UPMC Université Paris 06, ER5, EA 1541, Laboratoire de Bactériologie-Hygiène, Paris, France
¶AP-HP, Hôpital Pitié-Salpêtrière, Laboratoire de Bactériologie-Hygiène, Paris, France
**Centre National de Référence des Mycobactéries et de la Résistance des Mycobactéries aux Antituberculeux, Paris, France
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Michael Hann;
Michael Hann
*Platform Technology Sciences, GlaxoSmithKline, Medicines Research Centre, Gunnels Wood Road, Stevenage, Hertfordshire SG1 2NY, U.K.
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Benjamin Bax;
Benjamin Bax
2
*Platform Technology Sciences, GlaxoSmithKline, Medicines Research Centre, Gunnels Wood Road, Stevenage, Hertfordshire SG1 2NY, U.K.
2To whom correspondence should be addressed (email [email protected]).
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Claudine Mayer
Claudine Mayer
†Unité de Microbiologie Structurale, Institut Pasteur, 75015 Paris, France
‡URA 2185, CNRS, 75015 Paris, France
§Université Paris Diderot, Sorbonne Paris Cité, Cellule Pasteur, 75015 Paris, France
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Publisher: Portland Press Ltd
Received:
April 15 2013
Revision Received:
September 04 2013
Accepted:
September 09 2013
Accepted Manuscript online:
September 09 2013
Online ISSN: 1470-8728
Print ISSN: 0264-6021
© The Authors Journal compilation © 2013 Biochemical Society
2013
Biochem J (2013) 456 (2): 263–273.
Article history
Received:
April 15 2013
Revision Received:
September 04 2013
Accepted:
September 09 2013
Accepted Manuscript online:
September 09 2013
Citation
Alka Agrawal, Mélanie Roué, Claus Spitzfaden, Stéphanie Petrella, Alexandra Aubry, Michael Hann, Benjamin Bax, Claudine Mayer; Mycobacterium tuberculosis DNA gyrase ATPase domain structures suggest a dissociative mechanism that explains how ATP hydrolysis is coupled to domain motion. Biochem J 1 December 2013; 456 (2): 263–273. doi: https://doi.org/10.1042/BJ20130538
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