Structural Basis for Natural Lactonase and Promiscuous Phosphotriesterase Activities

Overview

Journal J Mol Biol

Publisher Elsevier

Specialties Microbiology
Molecular Biology

Date 2008 May 20

PMID 18486146

Citations 72

Authors

Mikael Elias

Jerome Dupuy

Luigia Merone

Luigi Mandrich

Elena Porzio

Sebastien Moniot

Daniel Rochu

Claude Lecomte

Mose Rossi

Patrick Masson

Giuseppe Manco

Eric Chabriere

Affiliations

Soon will be listed here.

Abstract

Organophosphates are the largest class of known insecticides, several of which are potent nerve agents. Consequently, organophosphate-degrading enzymes are of great scientific interest as bioscavengers and biodecontaminants. Recently, a hyperthermophilic phosphotriesterase (known as SsoPox), from the Archaeon Sulfolobus solfataricus, has been isolated and found to possess a very high lactonase activity. Here, we report the three-dimensional structures of SsoPox in the apo form (2.6 A resolution) and in complex with a quorum-sensing lactone mimic at 2.0 A resolution. The structure also reveals an unexpected active site topology, and a unique hydrophobic channel that perfectly accommodates the lactone substrate. Structural and mutagenesis evidence allows us to propose a mechanism for lactone hydrolysis and to refine the catalytic mechanism established for phosphotriesterases. In addition, SsoPox structures permit the correlation of experimental lactonase and phosphotriesterase activities and this strongly suggests lactonase activity as the cognate function of SsoPox. This example demonstrates that promiscuous activities probably constitute a large and efficient reservoir for the creation of novel catalytic activities.

Citing Articles

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Catalytic Redundancies and Conformational Plasticity Drives Selectivity and Promiscuity in Quorum Quenching Lactonases.

Corbella M, Bravo J, Demkiv A, Calixto A, Sompiyachoke K, Bergonzi C JACS Au. 2024; 4(9):3519-3536.

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Applications of Microbial Organophosphate-Degrading Enzymes to Detoxification of Organophosphorous Compounds for Medical Countermeasures against Poisoning and Environmental Remediation.

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Li H, Lu C, Liu Z, Xiang F, Liu B, Wang H Toxicol Res (Camb). 2024; 13(3):tfae089.

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Changes in Active Site Loop Conformation Relate to the Transition toward a Novel Enzymatic Activity.

Jacquet P, Billot R, Shimon A, Hoekstra N, Bergonzi C, Jenks A JACS Au. 2024; 4(5):1941-1953.

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