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Reverse Gyrase; ATP-dependent Type I Topoisomerase from Sulfolobus

Overview
Journal EMBO J
Specialties Biotechnology
Molecular Biology
Date 1985 Oct 1
PMID 16453636
Citations 27
Authors
S Nakasu
A Kikuchi
Affiliations
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Abstract

Reverse gyrase, a topoisomerase which introduces positive superhelical turns into DNA, has been purified from Sulfolobus to near homogeneity. It is a single polypeptide with a mol. wt. of 120 000 as determined by denaturing gel electrophoresis. Contrary to a previous report, it is a type I topoisomerase as judged by the linking-number change of closed circular DNA topoisomer. Unlike other known type I topoisomerases, ATP or dATP is required for introducing positive superhelical turns. In order to relax negatively supercoiled DNA, other nucleotide triphosphates (XTP) are also effective with low efficiency. In the absence of either XTP or divalent cations, the enzyme introduces nicks into closed circular DNA when the reaction is stopped by SDS. This suggests that reverse gyrase cuts one of the two strands of DNA in the course of its enzymatic reaction.

Citing Articles

Structure of reverse gyrase with a minimal latch that supports ATP-dependent positive supercoiling without specific interactions with the topoisomerase domain.

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Topoisomerase IB: a relaxing enzyme for stressed DNA.

Soren B, Dasari J, Ottaviani A, Iacovelli F, Fiorani P Cancer Drug Resist. 2022; 3(1):18-25.

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Direct observation of helicase-topoisomerase coupling within reverse gyrase.

Yang X, Garnier F, Debat H, Strick T, Nadal M Proc Natl Acad Sci U S A. 2020; 117(20):10856-10864.

PMID: 32371489 PMC: 7245102. DOI: 10.1073/pnas.1921848117.

Transformation of a Thermostable G-Quadruplex Structure into DNA Duplex Driven by Reverse Gyrase.

Li D, Wang Q, Liu Y, Liu K, Zhuge Q, Lv B Molecules. 2017; 22(11).

PMID: 29165328 PMC: 6150213. DOI: 10.3390/molecules22112021.

Direct observation of DNA overwinding by reverse gyrase.

Ogawa T, Yogo K, Furuike S, Sutoh K, Kikuchi A, Kinosita Jr K Proc Natl Acad Sci U S A. 2015; 112(24):7495-500.

PMID: 26023188 PMC: 4475935. DOI: 10.1073/pnas.1422203112.

References
1.
Gellert M . DNA topoisomerases. Annu Rev Biochem. 1981; 50:879-910. DOI: 10.1146/annurev.bi.50.070181.004311. View
2.
Goto T, Wang J . Yeast DNA topoisomerase II. An ATP-dependent type II topoisomerase that catalyzes the catenation, decatenation, unknotting, and relaxation of double-stranded DNA rings. J Biol Chem. 1982; 257(10):5866-72. View
3.
Foglesong P, Bauer W . Effects of ATP and inhibitory factors on the activity of vaccinia virus type I topoisomerase. J Virol. 1984; 49(1):1-8. PMC: 255417. DOI: 10.1128/JVI.49.1.1-8.1984. View
4.
Kikuchi A, Asai K . Reverse gyrase--a topoisomerase which introduces positive superhelical turns into DNA. Nature. 1984; 309(5970):677-81. DOI: 10.1038/309677a0. View
5.
Liu L, Wang J . Micrococcus luteus DNA gyrase: active components and a model for its supercoiling of DNA. Proc Natl Acad Sci U S A. 1978; 75(5):2098-102. PMC: 392498. DOI: 10.1073/pnas.75.5.2098. View