Mechanism of the Escherichia coli DNA T:G-mismatch Endonuclease (Vsr protein) Probed with Thiophosphate-containing Oligodeoxynucleotides

Mechanism of the Escherichia coli DNA T:G-mismatch Endonuclease (Vsr protein) Probed with Thiophosphate-containing Oligodeoxynucleotides

The mechanism of the Escherichia coli DNA T:G mismatch endonuclease (Vsr) has been investigated using oligodeoxynucleotides substituted, at the scissile phosphate, with isomeric phosphorothioates and a 3′-phosphorothiolate. Binding and kinetic data with the phosphorothioates/phosphorothiolate indica...

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Bibliographic Details
Published in:Journal of molecular biology Vol. 353; no. 3; pp. 692 - 703
Main Authors: Elliott, Sarah L., Brazier, John, Cosstick, Richard, Connolly, Bernard A.
Format: Journal Article
Language:English
Published: England Elsevier Ltd 28-10-2005
Subjects:
Base Pairing
Base Sequence
DNA, Bacterial - chemistry
DNA, Bacterial - genetics
Endodeoxyribonucleases - chemistry
Escherichia coli
Escherichia coli - genetics
Hydrolysis
Kinetics
Molecular Probes
nuclease
Oligodeoxyribonucleotides - chemistry
Phosphates - chemistry
phosphodiester bond hydrolysis
phosphorothioates
phosphorothiolates
Stereoisomerism
Vsr endonuclease
MALDI-TOF MS
phosphorothioates
nuclease
Vsr endonuclease
phosphodiester bond hydrolysis
phosphorothiolates
PLD
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Summary:The mechanism of the Escherichia coli DNA T:G mismatch endonuclease (Vsr) has been investigated using oligodeoxynucleotides substituted, at the scissile phosphate, with isomeric phosphorothioates and a 3′-phosphorothiolate. Binding and kinetic data with the phosphorothioates/phosphorothiolate indicate that the two magnesium ions, which constitute essential co-factors, are required to stabilise the extra negative charge developed on the phosphate as the transition state is formed. Additionally one of the magnesium ions serves to activate the leaving group (the non-bridging 3′-oxygen atom of the scissile phosphate) during the hydrolysis reaction. Stereochemical analysis, using the R p phosphorothioate isomer, indicates that Vsr carries out a hydrolytic reaction with inversion of stereochemistry at phosphorus, compatible with an in-line attack of water and a pentacovalent transition state with trigonal bipyramidal geometry. In conjunction with structures of Vsr bound to its products, these data allow the reconstruction of the enzyme–substrate complex and a comprehensive description of the hydrolysis mechanism.
Bibliography:ObjectType-Article-1
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ISSN:0022-2836
1089-8638
DOI:10.1016/j.jmb.2005.08.048