EC:3.5.1.4 - FACTA Search

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)

Adherence of pathogenic microorganisms to the cell surface is a key event during infection. We have previously reported the characterization of Listeria monocytogenes transposon mutants defective in adhesion to eukaryotic cells. One of these mutants had lost the ability to produce Ami, a 102 kDa autolytic amidase with an N-terminal catalytic domain and a C-terminal cell wall-anchoring domain made up of repeated modules containing the dipeptide GW ('GW modules'). We generated ami null mutations by plasmid insertion into L. monocytogenes strains lacking the invasion proteins InlA (EGDDeltainlA), InlB (EGDDeltainlB) or both (EGDDeltainlAB). These mutants were 5-10 times less adherent than their parental strains in various cell types. The adhesion capacity of the mutants was restored by complementation with a DNA fragment encoding the Ami cell wall-anchoring domain fused to the Ami signal peptide. The cell-binding activity of the Ami cell wall-anchoring domain was further demonstrated using the purified polypeptide. Growth of the ami null mutants constructed in EGD and EGDDeltainlAB backgrounds was attenuated in the livers of mice inoculated intravenously, indicating a role for Ami in L. monocytogenes virulence. Adhesive properties have recently been reported in the non-catalytic domain of two other autolysins, Staphylococcus epidermidis AtlE and Staphylococcus saprophyticus Aas. Interestingly, we found that these domains were also composed of repeated GW modules. Thus, certain autolysins appear to promote bacterial attachment by means of their GW repeat domains. These molecules may contribute to the colonization of host tissues by Gram-positive bacteria.
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PMID:The autolysin Ami contributes to the adhesion of Listeria monocytogenes to eukaryotic cells via its cell wall anchor. 1125 38

The choline-binding domain (ChoBD) of the carboxy-terminal region of the Streptococcus pneumoniae amidase LYTA (C-LYTA) presents a strong affinity for tertiary amines. We report a method for single-step purification of proteins expressed in the methylotrophic yeast Pichia pastoris based on the fusion of C-LYTA to the protein of interest. We show that C-LYTA can be efficiently expressed and secreted in this host. Tagged proteins fused to this binding domain can be purified on inexpensive DEAE matrices. It therefore provides a useful system for the purification of recombinant proteins with high specificity suitable for industrial purposes.
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PMID:Choline-binding domain as a novel affinity tag for purification of fusion proteins produced in Pichia pastoris. 1137 5

The cyclic amidohydrolase family enzymes, including hydantoinase, dihydropyrimidinase, allantoinase and dihydroorotase, are metal-dependent hydrolases and play a crucial role in the metabolism of purine and pyrimidine in prokaryotic and eukaryotic cells. With the increasing demand for the elucidation of enzyme structures and functions, along with industrial applications, the research on the family enzymes has recently been proliferating, but the related enzymes had been purified conventionally by multistep purification procedures. Here, we reported the expression in Escherichia coli cells of maltose-binding protein-fused family enzymes and their one-step purification. The expression levels of the fusion proteins account for 20-35% of the total protein in E. coli, allowing approximately 2-3 mg of the purified proteins by affinity chromatography to be obtained per 0.3 L of bacterial culture. As more promising results, their nascent biochemical properties, after the cleavage of the fusion proteins with Factor Xa, in terms of oligomeric structure, optimal pH, specific activity, and kinetic property, were also conserved as those from the native enzymes. The availability of the family enzymes to fusion strategy shows potential as a convenient procedure to recombinant protein purification and accelerates the structure-function study of the related family enzymes.
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PMID:High-level expression and one-step purification of cyclic amidohydrolase family enzymes. 1157 Aug 54

Glutaryl-7-amino cephalosporanic acid (GL-7ACA) acylase catalyzes the conversion of GL-7ACA to 7-amino cephalosporanic acid (7-ACA). The product 7-ACA is a starting compound for semi-synthetic cephalosporin antibiotics in industry. In order to detect the expression and specific activity of protein-engineered GL-7ACA acylase accurately, two useful detective systems for its expression has been established, in which reporter genes xylE and lacZ were fused to the downstream the GL-7ACA acylase gene acy respectively and the activity of catechol dioxygenase or beta-galactosidase could indicate the amount of acy expression.
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PMID:[Establishment of detective systems for GL-7ACA acylase expression]. 1191 Jul 63

Glutaryl 7-amino cephalosporanic acid acylase (GL-7ACA acylase) from Pseudomonas sp.130 catalyzes hydrolysis of glutaryl 7-amino cephalosporanic acid to produce 7-amino cephalosporanic acid (7-ACA). 7-ACA is the starting material for the industrial production of most cephalosparonic derivatives. Six plasmids for expression of GL-7ACA acylase were constructed and these recombin ant plasmids presented different expression characteristics in Escherichia coli. The acylase gene from plasmid pKKCA1 was inserted into plasmid pMFT7-5 and the resulting plasmid pMFT7CA1 has higher expression in E.coli. The specific activity of the crude extract of the transformant JM109(DE3)/pMFT7CA1 was near 5 u/g, so the over produced enzyme was easily purified by a single-step anion exchange column chromatography. The enzyme could be purified by immobilized ion affinity chromatography after fused by 6xHis in the N-terminal of its alpha-subunit. Because plasmid pSMLCA1 brings tc(R) and p15A origin, it is special useful plasmid in fermentation. Two secretory expression plasmids, pSUCA1S and pETCA1pelB, could secrete the acylase to periplasmic space of bacteria. The whole cells containing the secretory expression plasmid may be used for production of 7-ACA directly.
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PMID:Expression of gene encoding GL-7ACA acylase in Escherichia coli. 1209 81

It has been reported that PGPB, containing ACC deaminase, can cleave the plant ethylene precursor ACC and thereby lower ethylene concentration in a developing or stressed plant, protecting it against the deleterious effects of stress ethylene and facilitating the formation of longer roots. In a previous work we have demonstrated expression of the ACC deaminase gene ( acdS) from Enterobacter cloacae UW4 under the control of the lac promoter in Azospirillum brasilense Cd. With the inference that a construct including the ACC deaminase gene under the control of a constitutive promoter weaker than the lac promoter might impose less metabolic load on Azospirillum and improve its fitness, it was decided to clone acdS under the control of a tetracycline resistance gene promoter. The ACC deaminase structural gene was fused to the Tet(r) gene promoter by overlap extension using PCR, cloned in pRK415, and transferred into A. brasilense Cd. The resulting transformants showed lower ACC deaminase activity than those with the lac promoter controlled acdS gene. However, acdS under the control of the Tet(r) gene promoter imposed lesser metabolic load on Azospirillum brasilense Cd. The result was significantly increased IAA synthesis and greater bacterial growth rate, as well as increased ability to survive on the surface of tomato leaves and to promote the growth of tomato seedlings.
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PMID:Transformation of Azospirillum brasilense Cd with an ACC deaminase gene from enterobacter cloacae UW4 fused to the Tet r gene promoter improves its fitness and plant growth promoting ability. 1273 73

Cytosine deaminase (CD) converts 5-fluorocytosine (5-FC) to the toxic metabolite 5-fluorouracil (5-FU), and has been investigated extensively as a potential tool for selective cellular eradication. In this paper, genetic constructs were designed to express the CD enzyme fused to the transmembrane and extracellular domains of the human nerve growth factor receptor (NGFR), thus allowing for positive identification of transduced cells by flow cytometry and positive selection by magnetic bead technology. Constructs were designed to encode a [Gly(4)Ser](2) flexible linker between the nucleic acid coding sequences for the NGFR and CD genes. Retroviral vectors constructed with wild-type CD and NG/CD fusion genes were used to transduce 3T3 fibroblasts and the human T cell line CEM. The function of CD fusion genes was comparable to that of wild-type genes as determined in cytotoxicity assays. By flow cytometry, the NGFR antigen was detectable after expression of the fusion gene derived from either Escherichia coli (NG/CDe) or Saccharomyces cerevisiae (NG/CDs), but the greatest antigen density was observed in cells transduced with the NG/CDs vector. Similarly, superior 5-FC sensitivity was observed with NG/CDs fusion gene in both murine fibroblasts and human T cells. In addition, CEM cells expressing NG/CDs were more efficiently eliminated in vivo. Engineering of cells utilizing the chimeric NG/CD genes provides a new modality in gene therapy allowing positive and negative selection using a single protein-coding sequence.
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PMID:Human nerve growth factor receptor and cytosine deaminase fusion genes. 1286 18

Genetic characterization of a signal transduction pathway requires the isolation of mutations in the pathway. Characterization of these mutated genes and their loci enumerates the components of the pathway and leads to an understanding of the role of each gene locus in the pathway under study. We have designed and developed a strategy based on resistance to the chemical flucytosine for the identification of mutations in a given pathway. In this study, the Escherichia coli codA gene, which encodes the enzyme cytosine deaminase, was fused to the light-intensity-regulated gene promoter psbDII. Cytosine deaminase converts 5'-fluorocytosine to the toxic product 5-fluorouracil. Wild-type cells containing an intact signal transduction pathway that regulates the psbDII promoter will die in the presence of this chemical. Cells that carry mutations in the pathway that inactivate the psbDII promoter will not express the codA gene and, consequently, will live on 5'-fluorocytosine, allowing the isolation and subsequent characterization of mutations in this signaling pathway. Utilizing this selection method, we have successfully isolated and characterized mutations in the psbDII pathway. This selection scheme can be used with a tissue-specific or phase-specific promoter fused to the codA gene to direct the timing of expression of codA to obtain mutants defective in temporal or cell-specific expression of a particular pathway. This scheme also allows the isolation of mutants even when a clearly identifiable phenotype is not available. The selection scheme presented here extends the molecular tools available for the genetic dissection of signal transduction pathways.
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PMID:Genetic selection scheme for isolation of signal transduction pathway mutants. 1476 78

7-Beta-(4-Carboxybutanamido)cephalosporanic acid (GL-7ACA) acylase from Pseudomonas sp. C427 is known as a proteolytically processed bacterial enzyme. GL-7ACA acylase from Pseudomonas sp. C427 (C427) consists of alpha- and beta-subunits that are processed from a precursor peptide by removing the spacer peptide. A chitin-binding domain (CBD) of chitinase A1 derived from Bacillus circulans was genetically fused into four different positions of the C427-encoding gene. In the four enzymes thereby produced, Nalpha427, SP427, Calpha427, and Cbeta427, it was fused, respectively, to the N-terminal region of the alpha-subunit; the C-terminal region of the alpha-subunit; the three-amino-acid upper region of the C-terminal of the alpha-subunit; and to the C-terminal region of the beta-subunit. All of the fusion enzymes, expressed in Eschericha coli, were successfully processed into active forms and had GL-7ACA acylase activity. The affinity-binding activity to crystalline chitin was affected by the fusing position of CBD. Nalpha427, Calpha427, and Cbeta427 remained fused to the CBD after their processing steps and could bind to chitin, but in the case of SP427 the fused CBD was cleaved away during the processing steps and binding activity was no longer observed. These results indicate that CBD is functional in such autoproteolytically subunit-assembled acylases.
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PMID:Production of autoproteolytically subunit-assembled 7-beta-(4-carboxybutanamido)cephalosporanic acid (GL-7ACA) acylase from Pseudomonas sp. C427 using a chitin-binding domain. 1522 Dec 26

We fused four mutant omr1 alleles, encoding feedback-insensitive forms of Arabidopsis thaliana biosynthetic threonine dehydratase/deaminase (TD), to the CaMV 35S promoter and transformed these constructs into A. thaliana Columbia wild type plants. The mutant TD forms consisted of our previously isolated double mutant, omr1-1 , and three new site-directed mutants, omr1-5 , omr1-7 , and omr1-8 with single point mutations. We employed site-directed mutagenesis to assay the effects of amino acid substitutions in separate regulatory regions within the carboxy-terminal (C-term) allosteric end. TD assays and growth resistance to the isoleucine (Ile) toxic analog -O-methylthreonine (OMT) confirmed the desensitization to feedback inhibition and the viability of these mutant omr1 alleles as selectable markers, respectively. Two of the site-directed mutants, omr1-5 and omr1-7 , appeared to influence one of the two separate Ile-binding sites and had a notable 13-fold and 15-fold increase in free Ile, respectively. The omr1-8 appeared to influence the other Ile-binding site and resulted in a 2-fold increase in free Ile. The transgenic omr1-1 double mutant affecting both Ile-binding sites, however, displayed a 106-fold increase in free Ile revealing a profound synergistic interplay between these separate Ile-binding sites. While all of the four omr1 alleles conferred resistance to elevated concentrations of OMT, the progeny of omr1-1 initial transformants exhibited a bushy phenotype at the rosette stage. On the other hand, progeny of transformants omr1-5 , omr1-7 , and omr1-8 had a normal phenotype, undistinguishable from wild type. Therefore, alleles omr1-5 , omr1-7 , and omr1-8 , proved to be ideal as environmentally-friendly, dominant, selectable markers for plant transformation.
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PMID:A site-directed mutagenesis interrogation of the carboxy-terminal end of Arabidopsis thaliana threonine dehydratase/deaminase reveals a synergistic interaction between two effector-binding sites and contributes to the development of a novel selectable marker. 1560 69

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