EC:6.3.4.6 - FACTA Search

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Query: EC:6.3.4.6 (urease)
7,490 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Selenocysteine-incorporating tRNA(Sec)(UCA), the product of selC, was isolated from E.coli and aminoacylated with serine. The equilibrium dissociation constant for the interaction of Ser-tRNA(Sec)(UCA) with elongation factor Tu.GTP was determined to be 5.0 +/- 2.5 x 10(-8) M. Compared with the dissociation constants of the two elongator Ser-tRNA(Ser) species (Kd = 7 x 10(-10) M), the selenocysteine-incorporating UGA suppressor tRNA has an almost hundred fold weaker affinity for EF-Tu.GTP. This suggests a mechanism by which the Ser-tRNA(Sec) is prevented in recognition of UGA codons. This tRNA is not bound to EF-Tu.GTP and is converted to selenocysteinyl-tRNA(Sec). We also demonstrate the lack of an efficient interaction of Sec-tRNA(Sec)(UCA) with EF-Tu.GTP. The results of this work are in support of a mechanism by which the selenocysteine incorporation at UGA nonsense codons is mediated by an elongation factor other than EF-Tu.GTP.
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PMID:Interaction of a selenocysteine-incorporating tRNA with elongation factor Tu from E.coli. 240 12

Selenocysteine is cotranslationally incorporated into selenoproteins in a unique pathway involving tRNA mediated suppression of a UGA nonsense codon (1-3). The DNA sequence of the gene for this suppressor tRNA from Escherichia coli predicts unusual features of the gene product (4). We determined the sequence of this serine tRNA (tRNA(UCASer]. It is the longest tRNA (95 nt) known to date with an acceptor stem of 8 base pairs and lacks some of the 'invariant' nucleotides found in other tRNAs. It is the first E. coli tRNA that contains the hypermodified nucleotide i6A, adjacent to the UGA-recognizing anticodon UCA. The implications of the unusual structure and modification of this tRNA on recognition by seryl-tRNA synthetase, by tRNA modifying enzymes, and on codon recognition are discussed.
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PMID:The selenocysteine-inserting opal suppressor serine tRNA from E. coli is highly unusual in structure and modification. 252 78

Increased brain and plasma glutamine after ammonia inhalation had an effect on the concentrations of selected amino acids in rats. Rats inhaled ammonia vapour of 25 and 300 p.p.m. for 5 days 6 hr daily. Brain glutamine increased from the control level, 10.9 +/- 2.6 (S.D.) mumol/g to 15.5 +/- 5.2 (S.D.) mumol/g (P less than 0.05) in 25 p.p.m. NH3 and to 15.3 +/- 1.1 (S.D.) mumol/g (P less than 0.01) in 300 p.p.m. NH3. The blood glutamine was also increased so that the brain/plasma ratio was not changed. A slight elevation in the brain threonine was found, from 0.6 +/- 0.1 (S.D.) mumol/g (controls) to 0.8 +/- 0.2 (S.D.) mumol/g in 25 p.p.m. and to 0.8 +/- 0.1 (S.D.) mumol/g in 300 p.p.m. NH3. The brain/plasma ratio of threonine was increased at the 300 p.p.m. level. The increasing brain threonine linearly correlated to the increased plasma glutamine the general correlation co-efficient being 0.59 according to a linear regression analysis. The effects on other amino acids, e.g., glycine, alanine, serine, aspartate, glutamate, were less clear. It seems that the elevated blood glutamine impaired the threonine export or augmented its uptake from the blood stream. Exposure to NH3 vapour by inhalation proved to be an alternative model to portocaval shunting or urease injections in the study of hyperammonemia in the brain.
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PMID:Effect of short-term ammonia inhalation on selected amino acids in rat brain. 272 87

Succinivibrio dextrinosolvens C18 was found to possess glutamine synthetase (GS), urease, glutamate dehydrogenase, and several other nitrogen assimilation enzymes. When grown in continuous culture under ammonia limitation, both GS and urease activities were high and glutamate dehydrogenase activity was low, but the opposite activity pattern was observed for growth in the presence of ample ammonia. The addition of high-level (15 mM) ammonium chloride to ammonia-limited cultures resulted in a rapid loss of GS activity as measured by either the gamma-glutamyl transferase or forward assay method with cells or extracts. No similar activity losses occurred for urease, glutamate dehydrogenase, or pyruvate kinase. The GS activity loss was not prevented by the addition of chloramphenicol and rifampin. The GS activity could be recovered by washing or incubating cells in buffer or by the addition of snake venom phosphodiesterase to cell extracts. Manganese inhibited the GS activity (forward assay) of untreated cells but stimulated the GS activity in ammonia-treated cells. Alanine, glycine, and possibly serine were inhibitory to GS activity. Optimal pH values for GS activity were 7.3 and 7.4 for the forward and gamma-glutamyl transferase assays, respectively. The glutamate dehydrogenase activity was NADPH linked and optimal in the presence of KCl. The data are consistent with an adenylylation-deadenylylation control mechanism for GS activity in S. dextrinosolvens, and the GS pathway is a major route for ammonia assimilation under low environmental ammonia levels. The rapid regulation of the ATP-requiring GS activity may be of ecological importance to this strictly anaerobic ruminal bacterium.
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PMID:Glutamine synthetase activity in the ruminal bacterium Succinivibrio dextrinosolvens. 286 38

The opal termination codon UGA is used in both prokaryotic and eukaryotic species to direct the specific insertion of selenocysteine into certain selenium-dependent enzymes. So far a formate dehydrogenase (hydrogenase-linked) of Escherichia coli and glutathione peroxidases of murine, human and rat origin have been identified as enzymes containing selenocysteine residues encoded by UGA. A novel seryl-tRNA, anticodon UCA, that specifically recognizes the UGA codon is required for selenocysteine incorporation into formate dehydrogenase. A eukaryotic UGA suppressor tRNA with UCA anticodon that accepts serine and is phosphorylated to O-phosphoseryl-tRNA may have a corresponding function in glutathione peroxidase synthesis. Other factors required for the unusual usage of the in-frame UGA codons to specify selenocysteine incorporation and the biochemical mechanism involved in distinguishing these from normal UGA termination codons are discussed.
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PMID:Selenocysteine, a highly specific component of certain enzymes, is incorporated by a UGA-directed co-translational mechanism. 297 58

Antisuppressor mutations reduce the efficiency of nonsense suppressors. A mutation in the gene sin4 of Schizosaccharomyces pombe leads to loss of 5-(methoxycarbonylmethyl) thiouridine (mcm5s2U) from the first anticodon position of tRNAs. This resembles the phenotype of sin3 (Heyer, W. D., Thuriaux, P., Kohli, J., Ebert, P., Kersten, H., Gehrke, C., Kuo, K. C., and Agris, P. F. (1984) J. Biol. Chem. 259, 2856-2862), but the mutations reside in different genes. In vivo 35S-labeled tRNA from the parental suppressor strain sup3, the antisuppressor strains sin3 and sin4, and the double mutant sin3 sin4 has been digested to nucleosides and analyzed with high performance liquid chromatography methods. The major sulfur-carrying nucleoside in wild-type S. pombe tRNA is mcm5s2U. It is reduced in the mutant strains. Two other thiolated nucleosides are also present: 2-thiouridine and a nucleoside of unknown structure. Neither was affected by the antisuppressor mutations. Thiocytidine has not been found. Independent from their effect on suppressors, the two mutations sin3 and sin4 reduce the growth rate of cells, and sin3 also increases cell length. In vivo decoding of the serine codon UCG by the UCA reading serine tRNA is not promoted by the two antisuppressor mutations.
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PMID:Antisuppressor mutations and sulfur-carrying nucleosides in transfer RNAs of Schizosaccharomyces pombe. 378 24

We have investigated the molecular basis for a deficiency of the enzyme hypoxanthine (guanine) phosphoribosyltransferase (HPRT; IMP:pyrophosphate phosphoribosyltransferase, EC 2.4.2.8) in a patient with a severe form of gout. We reported in previous studies the isolation of a unique structural variant of HPRT from this patient's erythrocytes and cultured lymphoblasts. This enzyme variant, which is called HPRTLondon, is characterized by a decreased concentration of HPRT protein in erythrocytes and lymphoblasts, a normal Vmax, a 5-fold increased Km for hypoxanthine, a normal isoelectric point, and an apparently smaller subunit molecular weight. Comparative peptide mapping experiments revealed a single abnormal tryptic peptide in HPRTLondon. Edman degradation of the aberrant peptide from HPRTLondon identified a serine-to-leucine amino acid substitution at position 109. This substitution can be explained by a single nucleotide change in the codon for serine-109 (UCA leads to UUA). Thus a mutation at the HPRT locus has now been defined at the molecular level.
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PMID:Human hypoxanthine (guanine) phosphoribosyltransferase: an amino acid substitution in a mutant form of the enzyme isolated from a patient with gout. 657 73

The rapid development of the silk glands of Bombyx mori during the last larval instar shows two phases. During the first 4 days, in both the middle and posterior parts of the silk glands, the ribosomal machinery is assembled and the synthesis of housekeeping proteins starts. During the second phase (the last 4 days), the middle part of the gland synthesis approximately 45 mg of the silk protein sericin (31% serine) and the posterior part of the gland synthesizes approximately 130 mg of the silk protein fibroin (46% glycine, 29% alanine and 12% serine). Silk fibroin and sericin are detectable by the second day and represent 80 and 50% respectively of the total proteins produced at day 8 (refs 1--4). It is known that the tRNA population of the posterior part of the gland is quantitatively adapted to fibroin codon frequency during this period but little is known about the situation in the middle part except for the observation that it contains more tRNASer than does the posterior part. We show here that the two parts contain, and presumably use, different iso-accepting species of tRNASer, the middle part using tRNASer1, which recognizes AGU and AGC codons, and the posterior part using tRNASer2 which recognizes UCA. We also suggest that this differential adaptation of the tRNASer species is under transcriptional control as the two species are accumulated at different rates, but degraded at the same rate.
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PMID:Differential usage of iso-accepting tRNASer species in silk glands of Bombyx mori. 678 90

A simplified translation system coupled to DNA transcription that involves assaying the synthesis of the first dipeptide of a gene product has been described recently [Robakis, N., Meza-Basso, L., Brot, N. & Weissbach, H. (1981) Proc. Natl. Acad. Sci. USA 78, 4261--4264]. Using this dipeptide system, we have investigated the expression of genes carried on plasmids coding for beta-lactamase, ribosomal protein L12, and the chloroplast large subunit (LS) of ribulosebisphosphate carboxylase (RbuBPCase). Although all three nascent gene products begin with the sequence fMet-Ser, the formation of fMet-Ser can be used to distinguish between the synthesis of beta-lactamase and either L12 or the LS of RbuBPCase by using different serine isoacceptor tRNA species. In beta-lactamase, the serine codon is AGU, which utilizes the serine isoacceptor species tRNASer3; in L12 and the LS of RbuBPCase, the serine codewords are UCU and UCA, respectively, both of which are recognized by the serine isoacceptor species tRNASer1. By using either pure tRNASer1 or pure tRNASer3, the expression of each gene can be quantitated. In this system, guanosine-5'-diphosphate-3'-diphosphate inhibits the expression of the beta-lactamase and L12 genes but stimulates the synthesis of the LS. In addition, the ratio of fMet-Ser/fMet-Ala (L12/L10) synthesized was about 1 as compared with the ratio of 4 that has been obtained previously in vivo or in vitro protein-synthesizing systems in which the entire gene product was measured.
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PMID:Use of different tRNASer isoacceptor species in vitro to discriminate between the expression of plasmid genes. 680 42

Ochre suppressor tRNA was partially purified from strains of Saccharomyces cerevisiae containing the serine-inserting class III suppressor SUQ5-ol. RNA sequence analysis of this tRNA indicated that the suppressor is derived from a UCA-decoding tRNA Ser by a G leads to U substitution in the middle position of the anticodon. The suppressor further differs from the wild-type UCA-decoding tRNA Ser in that the mutant anticodon lacks the modified uridine found in the wobble position of the wild-type tRNA and contains instead another modification in or near the anticodon.
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PMID:Yeast ochre suppressor SUQ5-ol is an altered tRNA Ser UCA. 702 9

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