Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.1.4 (deaminase)
 5,113 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The phosphotriesterase PTE, identified in the soil bacterium Pseudomonas diminuta, is thought to have evolved in the last several decades to degrade the pesticide paraoxon with proficiency approaching the limit of substrate diffusion (k(cat)/K(M) of 4 x 10(7)M(-1)s(-1)). It belongs to the amidohydrolase superfamily, but its evolutionary origin remains obscure. The enzyme has important potentiality in the field of the organophosphate decontamination. Recently we reported on the characterization of an archaeal member of the amidohydrolase superfamily, namely Sulfolobus solfataricus, showing low but significant and extremely thermostable paraoxonase activity (k(cat)/K(M) of 4 x 10(3)M(-1)s(-1)). Looking for other thermostable phosphotriesterases we assayed, among others, crude extracts of Sulfolobus acidocaldarius and detected activity. Since the genome of S. acidocaldarius has been recently reported, we identified there an open reading frame highly related to the S. solfataricus enzyme. The gene was cloned, the protein overexpressed in Escherichia coli, purified, and proven to have paraoxonase activity. A comparative analysis detected some significant differences between the two archaeal enzymes.
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PMID:A new phosphotriesterase from Sulfolobus acidocaldarius and its comparison with the homologue from Sulfolobus solfataricus. 1733 20

The PLL(PTE-like lactonase)-group of enzymes within the amidohydrolase superfamily hydrolyze N-acyl-homoserine lactones (AHLs) that are involved in bacterial quorum-sensing pathways. These enzymes possess the (beta/alpha)(8)-barrel fold and serve as attractive templates for in vitro evolution and engineering of quorum-quenching biological molecules that can serve as antivirulence therapeutic agents. Using a quorum-quenching lactonase from Mycobacterium avium subsp. paratuberculosis K-10 (GI: 41409766) as the initial template for in vitro evolution experiments, we enhanced the catalytic efficiency and increased the substrate range of the wild-type enzyme through a single point mutation on the loop at the C-terminal end of the eighth beta-strand. This N266Y mutant had an increased value of k(cat)/K(M) of 30- and 32-fold toward 3-oxo-N-octanoyl-l-homoserine lactone and N-hexanoyl-l-homoserine lactone, respectively; the evolved mutant also exhibited lactonase activity toward 3-oxo-N-hexanoyl-l-homoserine lactone and N-butyryl-l-homoserine lactone, AHLs that were previously not hydrolyzed by the wild-type enzyme. This article reinforces the evolutionary potential of the (beta/alpha)(8)-barrel fold and highlights the possibility of using quorum-quenching lactonases in the amidohydrolase superfamily as templates for engineering biomolecules of therapeutic use.
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PMID:Directed evolution of a quorum-quenching lactonase from Mycobacterium avium subsp. paratuberculosis K-10 in the amidohydrolase superfamily. 1937 50

The recent specialization for utilization of pesticides reported for Pseudomonas diminuta phosphotriesterase (pPTE) strongly suggests that this activity evolved from an enzyme endowed with promiscuous phosphotriesterase activity. Such a putative "generalist" enzyme was recently proposed to be a member of the new phoshotriesterase-like lactonase family (PLL). The promiscuous carboxylesterase and phosphodiesterase activities detected in pPTE and PLLs in turn paved the way for the prediction of the existence in nature of PTE-like enzymes with predominant carboxylesterase or phosphodiesterase activities. An "in silico" analysis of the related Mesorhizobium loti ORF MLL7664 and the biochemical characterization demonstrated its prominent carboxylesterase and low phosphotriesterase specificity. On the basis of sequence similarity with the phosphotriesterase homology protein from Escherichia coli and the carboxylesterase activity, we called it phosphotriesterase-like carboxylesterase (MloPLC). The carboxylesterase activity is strictly dependent on divalent cations, and as such MloPLC is the first phosphotriesterase-like metal-carboxylesterase characterized to date. In related enzymes of the amidohydrolase superfamily either glutamate or carboxylated lysine substitutes for MloPLC glutamate 183 and the residue appear invariantly involved in maintaining the structural integrity of the binuclear metal center. Accordingly, we changed Glu-183 to lysine or glutamine. All the tested activities were completely abolished in the E183Q mutant, while only a residual phosphotriesterase activity could be detected in the E183K mutant. Surprisingly, in the latter mutant a parallel 650-fold specificity increase in bis-p-nitrophenyl-phosphate (BpNP-P) was observed, turning MloPLC from a carboxylesterase into a phosphodiesterase. Chemical, structural, and kinetic data strongly suggested that K183 is not carboxylated and that the gain of the new function is assisted by the substrate.
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PMID:Evolution in the amidohydrolase superfamily: substrate-assisted gain of function in the E183K mutant of a phosphotriesterase-like metal-carboxylesterase. 1943 55

In the last decades the idea to use enzymes for environmental bioremediation has been more and more proposed and, in the light of this, new solutions have been suggested and detailed studies on some classes of enzymes have been performed. In particular, our attention in the last few years has been focused on the enzymes belonging to the amidohydrolase superfamily. Several members of this superfamily are endowed with promiscuous activities. The term 'catalytic promiscuity' describes the capability of an enzyme to catalyse different chemical reactions, called secondary activities, at the active site responsible for the main activity. Recently, a new family of microbial lactonases with promiscuous phosphotriesterase activity, dubbed PTE-Like Lactonase (PLL), has been ascribed to the amidohydrolase superfamily. Among members of this family are enzymes found in the archaea Sulfolobus solfataricus and Sulfolobus acidocaldarius, which show high thermophilicity and thermal resistance. Enzymes showing phosphotriesterase activity are attractive from a biotechnological point of view because they are capable of hydrolysing the organophosphate phosphotriesters (OPs), a class of synthetic compounds employed worldwide both as insecticides and chemical warfare agents. Furthermore, from a basic point of view, studies of catalytic promiscuity offer clues to understand natural evolution of enzymes and to translate this into in vitro adaptation of enzymes to specific human needs. Thermostable enzymes able to hydrolyse OPs are considered good candidates for the set-up of efficient detoxification tools.
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PMID:Hyperthermophilic phosphotriesterases/lactonases for the environment and human health. 2071 94