Abstract
The MutT protein, which prevents AT----CG transversions during DNA replication, hydrolyzes nucleoside triphosphates to yield nucleoside monophosphates and pyrophosphate. The hydrolysis of dGTP by the MutT protein in H(2)18O-enriched water, when monitored by high resolution 31P NMR spectroscopy at 242.9 MHz, showed 18O labeling of the pyrophosphate product, as manifested by a 0.010 +/- 0.002 ppm upfield shift of the pyrophosphate resonance, and no labeling of the dGMP product. This establishes that the reaction proceeds via a nucleophilic substitution at the beta-phosphorus of dGTP with displacement of dGMP as the leaving group. No exchange of 32P-labeled dGMP into dGTP was detected, indicating that water attacks dGTP directly or, less likely, an irreversibly formed pyrophosphoryl-enzyme intermediate. No exchange of 32P-labeled pyrophosphate into dGTP was observed, consistent with nucleophilic substitution at the beta-phosphorus of dGTP. Only six enzymes, all synthetases, have previously been shown to catalyze nucleophilic substitution at the beta-phosphorus of nucleoside triphosphate substrates. The MutT protein is the first hydrolase shown to do so.
Highlights
From the $Department of Biological Chemistry, The JohnsHopkins School of Medicine, Baltimore, Maryland 21205 and the TDepartment of Biology, The JohnsHopkins University, Baltimore, Maryland21218
Side triphosphates toyield nucleoside monophosphates The products of the reaction catalyzed by the MutTprotein andpyrophosphate.Thehydrolysisof dGTPby the MutT protein in H2"O-enriched water, whenmonitored by highresolution "PNMR spectroscopyat 242.9 MHz, showed "0 labeling of the pyrophosphate product, as manifested by 0a.010 & 0.002 ppm upfield are consistentwith nucleophilic substitution by water at either the a- or the P-phosphorus atoms of nucleoside triphosphates (NTP) substrates
By high resolution 31PNMR analysis of the products formed in H2l80by the MutTcatalyzed reaction, that the bond between the P-phosphorus atom and the a,p bridging oxygen of dGTP is cleaved, establishing the site of
Summary
0 1992 by The American Society for Biochemistry and Molecular Biology, Inc. Vol 261, No 24, Issue of August 25, pp. 16939-16942,1992 Printed in U.S.A. Substitutions at thea-P are common in biochemistry, occurring in DNA and RNA polymerases, nucleotide cyclases, and shift of the pyrophosphate resonance, and no labeling numerous synthetases (Cohn959).In contrast, substitutions of the dGMP product. This establishes that the reactioant theP-P are rare, presumably reflecting the higher electron proceeds via a nucleophilic substitutionat the 0-phos- density at this position (Mildvan, 1970), and have been dephorus of dGTP with displacement of dGMP as the tected in only six synthetases, namely phosphoribosyl-pyroleaving group.
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