Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Acyl-homoserine lactones (AHLs) are employed by several Proteobacteria as quorum-sensing signals. Past studies have established that these compounds are subject to biochemical decay and can be used as growth nutrients. Here we describe the isolation of a soil bacterium, Pseudomonas strain PAI-A, that degrades 3-oxododecanoyl-homoserine lactone (3OC12HSL) and other long-acyl, but not short-acyl, AHLs as sole energy sources for growth. The small-subunit rRNA gene from strain PAI-A was 98.4% identical to that of Pseudomonas aeruginosa, but the soil isolate did not produce obvious pigments or AHLs or grow under denitrifying conditions or at 42 degrees C. The quorum-sensing bacterium P. aeruginosa, which produces both 3OC12HSL and C4HSL, was examined for the ability to utilize AHLs for growth. It did so with a specificity similar to that of strain PAI-A, i.e., degrading long-acyl but not short-acyl AHLs. In contrast to the growth observed with strain PAI-A, P. aeruginosa strain PAO1 growth on AHLs commenced only after extremely long lag phases. Liquid-chromatography-atmospheric pressure chemical ionization-mass spectrometry analyses indicate that strain PAO1 degrades long-acyl AHLs via an AHL acylase and a homoserine-generating HSL lactonase. A P. aeruginosa gene, pvdQ (PA2385), has previously been identified as being a homologue of the AHL acylase described as occurring in a Ralstonia species. Escherichia coli expressing pvdQ catalyzed the rapid inactivation of long-acyl AHLs and the release of HSL. P. aeruginosa engineered to constitutively express pvdQ did not accumulate its 3OC12HSL quorum signal when grown in rich media. However, pvdQ knockout mutants of P. aeruginosa were still able to grow by utilizing 3OC12HSL. To our knowledge, this is the first report of the degradation of AHLs by pseudomonads or other gamma-Proteobacteria, of AHL acylase activity in a quorum-sensing bacterium, of HSL lactonase activity in any bacterium, and of AHL degradation with specificity only towards AHLs with long side chains.
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PMID:Utilization of acyl-homoserine lactone quorum signals for growth by a soil pseudomonad and Pseudomonas aeruginosa PAO1. 1453 48

The amidohydrolase superfamily comprises hundreds of hydrolytic enzymes of the (beta/alpha)8 barrel fold with mono- or binuclear active-site metal centers, and a diverse spectrum of substrates and reactions. Promiscuous activities, or cross-reactivities, between different members of the same superfamily may provide important hints regarding evolutionary and mechanistic relationships. We examined three members: dihydroorotase (DHO), phosphotriesterase (PTE), and PTE-homology protein (PHP). Of particular interest are PTE, which is thought to have evolved within the last several decades, and PHP, an amidohydrolase superfamily member of unknown function, and the closest known homologue of PTE. We found a diverse and partially overlapping pattern of promiscuous activities in these enzymes, including a significant lactonase activity in PTE, esterase activities in both PTE and PHP, and a weak PTE activity in DHO. Directed evolution was applied to improve the promiscuous esterase activities of PTE and PHP. Remarkably, the most recurrent mutation increasing esterase activity in PTE, or PHP, maps to the same location in their superposed 3D structures. The evolved variants also exhibit newly acquired promiscuous activities that were not selected for, including very weak, yet measurable, paraoxonase activity in PHP. Our results illustrate the mechanistic, structural, and evolutionary links between these enzymes, and highlight the importance of studying laboratory evolution intermediates that might resemble node intermediates along the evolutionary pathways leading to the divergence of enzyme superfamilies.
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PMID:Shared promiscuous activities and evolutionary features in various members of the amidohydrolase superfamily. 1617 87

A gene involved in N-acyl homoserine lactone (N-AHSL) degradation was identified by screening a genomic library of Rhodococcus erythropolis strain W2. This gene, named qsdA (for quorum-sensing signal degradation), encodes an N-AHSL lactonase unrelated to the two previously characterized N-AHSL-degrading enzymes, i.e., the lactonase AiiA and the amidohydrolase AiiD. QsdA is related to phosphotriesterases and constitutes the reference of a novel class of N-AHSL degradation enzymes. It confers the ability to inactivate N-AHSLs with an acyl chain ranging from C(6) to C(14), with or without substitution at carbon 3. Screening of a collection of 15 Rhodococcus strains and strains closely related to this genus clearly highlighted the relationship between the ability to degrade N-AHSLs and the presence of the qsdA gene in Rhodococcus. Bacteria harboring the qsdA gene interfere very efficiently with quorum-sensing-regulated functions, demonstrating that qsdA is a valuable tool for developing quorum-quenching procedures.
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PMID:A Rhodococcus qsdA-encoded enzyme defines a novel class of large-spectrum quorum-quenching lactonases. 1819 19

Many Gram-negative bacterial pathogens employ N-acyl homoserine lactones (AHLs) quorum-sensing signals for regulation of various biological functions. Several types of AHL-inactivating enzymes, also known as quorum-quenching enzymes, have been unveiled in recent years. These enzymes seem to play important roles in microbial physiology and ecology and hold promising potential in biotechnology. This unit describes methods based on a simple diffusion plate assay for qualitative detection and quantitative measurement of AHL-inactivating enzyme activity. The qualitative detection method is suitable for rapid and large-scale screening and identification of quorum-quenching enzymes. Furthermore, HPLC methods are provided for accurate determination of whether the quorum-quenching enzyme is a lactonase or an acylase. The unit also presents concise background information on the quorum-quenching enzymes identified from various sources, including bacterial and mammalian species.
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PMID:Detection and analysis of quorum-quenching enzymes against acyl homoserine lactone quorum-sensing signals. 1877 Jun

Dr0930, a member of the amidohydrolase superfamily in Deinococcus radiodurans, was cloned, expressed, and purified to homogeneity. The enzyme crystallized in the space group P3121, and the structure was determined to a resolution of 2.1 A. The protein folds as a (beta/alpha)7beta-barrel, and a binuclear metal center is found at the C-terminal end of the beta-barrel. The purified protein contains a mixture of zinc and iron and is intensely purple at high concentrations. The purple color was determined to be due to a charge transfer complex between iron in the beta-metal position and Tyr-97. Mutation of Tyr-97 to phenylalanine or complexation of the metal center with manganese abolished the absorbance in the visible region of the spectrum. Computational docking was used to predict potential substrates for this previously unannotated protein. The enzyme was found to catalyze the hydrolysis of delta- and gamma-lactones with an alkyl substitution at the carbon adjacent to the ring oxygen. The best substrate was delta-nonanoic lactone with a kcat/Km of 1.6 x 10(6) M-1 s-1. Dr0930 was also found to catalyze the very slow hydrolysis of paraoxon with values of kcat and kcat/Km of 0.07 min-1 and 0.8 M-1 s-1, respectively. The amino acid sequence identity to the phosphotriesterase (PTE) from Pseudomonas diminuta is 30%. The eight substrate specificity loops were transplanted from PTE to Dr0930, but no phosphotriesterase activity could be detected in the chimeric PTE-Dr0930 hybrid. Mutation of Phe-26 and Cys-72 in Dr0930 to residues found in the active site of PTE enhanced the kinetic constants for the hydrolysis of paraoxon. The F26G/C72I mutant catalyzed the hydrolysis of paraoxon with a kcat of 1.14 min-1, an increase of 16-fold over the wild-type enzyme. These results support previous proposals that phosphotriesterase activity evolved from an ancestral parent enzyme possessing lactonase activity.
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PMID:Functional annotation and three-dimensional structure of Dr0930 from Deinococcus radiodurans, a close relative of phosphotriesterase in the amidohydrolase superfamily. 1915 32

Quorum sensing (QS) is a signal mediated cell-cell communication system that couples bacterial cell density to a synchronized gene expression (Fuqua et al., 1994). Mostly, in Gram negative bacteria QS signals are N-acylhomoserine lactones (NAHLs) that coordinate important functions such as virulence and pathogenicity. QS signals or the elements involved in their production or perception could be targeted to disrupt QS, a phenomenon called Quorum quenching (QQ). QQ properties (chemicals and enzymes) are naturally found in various Living organisms, like bacteria (Rhodococcus and Commamonas), plants (carrot, soybean, pea seedling, chilli, garlic etc), and animals (human sera, pork kidney tissues). Consequently, various bacterial genes encoding for NAHL degrading enzymes, like NAHL lactonases (AiiA in Bacillus, AiiB and AttM in Agrobacterium tumefaciens) and acylase/-amidohydrolase (AiiD in Ralstonia) were identified (Givskov et al., 2006). In Pectobacterium carotovorum (causal agent of soft rot diseases) production of various virulence factors and cell wall maceration enzymes is QS dependant, and relies upon successful production, stability, emission and perception of NAHLs (C-8, oxo-C8 and C-10). Disruption of QS signalling by NAHL degrading bacteria, modified bacteria or plants expressing NAHL lactonases resulted in the reduced virulence of the pathogen (Faure et al., 2007). Until recently, investigations on QQ enzymes were carried out mostly on cultivable bacteria, that represent a tiny fraction of soil and root-associated bacteria. In this study, a metagenomics approach (Handelsman, 2004) was employed to access the hidden diversity of uncultivable soil bacteria that revealed a QQ enzyme, an NAHL lactonase, in these bacteria (Riaz et al., 2008).
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PMID:Metagenomics revealed a quorum quenching lactonase QlcA from yet unculturable soil bacteria. 1922 36

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

N-acylhomoserine lactone (AHL) quorum-sensing molecules modulate the swimming behaviour of zoospores of the macroalga Ulva to facilitate the location of bacterial biofilms. Here we show that the intertidal surfaces colonized by Ulva are dominated by Alphaproteobacteria, particularly the Rhodobacteraceae family, and the Bacteroidetes family Flavobacteriaceae, and that this diverse assemblage both produces and degrades AHLs. N-acylhomoserine lactones could also be extracted from the surfaces of pebbles recovered from intertidal rock-pools. Bacteria representative of this assemblage were isolated and tested for the production and degradation of AHLs, and for their ability to modulate zoospore settlement at different biofilm densities. Of particular interest was a Shewanella sp. This strain produced three major AHLs (OC4, OC10 and OC12) in the late exponential phase, but the longer-chain AHLs were rapidly degraded in the stationary phase. Degradation occurred via both lactonase and amidase activity. A close relationship was found between AHL synthesis and Ulva zoospore settlement. The Shewanella isolate also interfered with AHL production by a Sulfitobacter isolate and its ability to enhance zoospore settlement in a polymicrobial biofilm. This influence on the attachment of Ulva zoospores suggests that AHL-degrading strains can affect bacterial community behaviour by interfering with quorum sensing between neighbouring bacteria. More importantly, these interactions may exert wider ecological effects across different kingdoms.
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PMID:Turnover of quorum sensing signal molecules modulates cross-kingdom signalling. 1950 52

A new enzyme homologous to phosphotriesterase was identified from the bacterium Geobacillus stearothermophilus (GsP). This enzyme belongs to the amidohydrolase family and possesses the ability to hydrolyze both lactone and organophosphate (OP) compounds, making it a phosphotriesterase-like lactonase (PLL). GsP possesses higher OP-degrading activity than recently characterized PLLs, and it is extremely thermostable. GsP is active up to 100 degrees C with an energy of activation of 8.0 kcal/mol towards ethyl paraoxon, and it can withstand an incubation temperature of 60 degrees C for two days. In an attempt to understand the thermostability of PLLs, the X-ray structure of GsP was determined and compared to those of existing PLLs. Based upon a comparative analysis, a new thermal advantage score and plot was developed and reveals that a number of different factors contribute to the thermostability of PLLs.
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PMID:Structural basis for thermostability revealed through the identification and characterization of a highly thermostable phosphotriesterase-like lactonase from Geobacillus stearothermophilus. 1961 30


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