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The structure of Escherichia coli RusA endonuclease reveals a new Holliday junction DNA binding fold.

Rafferty, J.B.; Bolt, E.L.; Muranova, T.A.; Sedelnikova, S.E.; Leonard, P.; Pasquo, A.; Baker, P.J.; Rice, D.W.; Sharples, G.J.; Lloyd, R.G.

Authors

J.B. Rafferty

E.L. Bolt

T.A. Muranova

S.E. Sedelnikova

P. Leonard

A. Pasquo

P.J. Baker

D.W. Rice

R.G. Lloyd



Abstract

Holliday junction resolution performed by a variety of structure-specific endonucleases is a key step in DNA recombination and repair. It is believed that all resolvases carry out their reaction chemistries in a similar fashion, utilizing a divalent cation to facilitate the hydrolysis of the phosphodiester backbone of the DNA, but their architecture varies. To date, with the exception of bacteriophage T4 endonuclease VII, each of the known resolvase enzyme structures has been categorized into one of two families: the integrases and the nucleases. We have now determined the structure of the Escherichia coli RusA Holliday junction resolvase, which reveals a fourth structural class for these enzymes. The structure suggests that dimer formation is essential for Mg(2+) cation binding and hence catalysis and that like the other resolvases, RusA distorts its Holliday junction target upon binding. Key residues identified by mutagenesis experiments are well positioned to interact with the DNA.

Citation

Rafferty, J., Bolt, E., Muranova, T., Sedelnikova, S., Leonard, P., Pasquo, A., …Lloyd, R. (2003). The structure of Escherichia coli RusA endonuclease reveals a new Holliday junction DNA binding fold. Structure, 11, 1557-1567

Journal Article Type Article
Publication Date 2003
Journal Structure
Print ISSN 0969-2126
Publisher Elsevier
Volume 11
Pages 1557-1567
Publisher URL http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=14656440