Journal
JOURNAL OF MOLECULAR BIOLOGY
Volume 384, Issue 1, Pages 120-136Publisher
ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD
DOI: 10.1016/j.jmb.2008.08.072
Keywords
phosphonate monoester hydrolase; phosphodiesterase; formylglycine; alkaline phosphatase superfamily; double-displacement mechanism
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The alkaline phosphatase superfamily comprises a large number of hydrolytic metalloenzymes such as phosphatases and sulfatases. We have characterised a new member of this superfamily, a phosphonate monoester hydrolase/phosphodiesterase from Rhizobium leguminosarum (RlPMH) both structurally and kinetically. The 1.42 angstrom crystal structure shows structural homology to arylsulfatases with conservation of the core alpha/beta-fold, the mononuclear active site and most of the active-site residues. Sulfatases use a unique formylglycine nucleophile, formed by posttranslational modification of a cysteine/serine embedded in a signature sequence (C/S)XPXR. We provide mass spectrometric and mutational evidence that RlPMH is the first non-sulfatase enzyme shown to use a formylglycine as the catalytic nucleophile. RlPMH hydrolyses phosphonate monoesters and phosphate diesters with similar efficiency. Burst kinetics suggest that substrate hydrolysis proceeds via a double-displacement mechanism. Kinetic characterisation of active-site mutations establishes the catalytic contributions of individual residues. A mechanism for substrate hydrolysis is proposed on the basis of the kinetic data and structural comparisons with E. coli alkaline phosphatase and Pseudomonas aeruginosa arylsulfatase. RlPMH represents a further example of conservation of the overall structure and mechanism within the alkaline phosphatase superfamily. (c) 2008 Elsevier Ltd. All rights reserved.
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