UNIPROT:P06889 - FACTA Search

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Query: UNIPROT:P06889 (Mol)
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A new HPLC assay was developed to measure UDP-glucose dehydrogenase (UDP-GDH) activity in crude homogenates of 3T3 fibroblasts. UDP-GDH activity is directly related to the proliferative activity of the cell culture: enzyme activity is highest in log phase cells and decreases as the culture approaches quiescence. Serum stimulation of quiescent 3T3 fibroblasts results in an increase in UDP-GDH activity that has two components that are differentially affected by inhibitors of protein synthesis. Following serum stimulation, changes in cellular UDP-glucuronic acid concentrations mirror changes in UDP-GDH activity. UDP-xylose is a potent inhibitor of UDP-GDH but inhibitory concentrations of UDP-xylose could not be detected in cell extracts.
Biochem Mol Biol Int 1993 Aug
PMID:Serum stimulation of UDP-glucose dehydrogenase activity in Swiss 3T3 fibroblasts. 822 Feb 34

Mutant UGA codon contexts which previously have been identified at different positions in the lacI part of a fused lacIlacZ gene were characterized with respect to translational readthrough in another genetic surrounding at a constant location. Although readthrough levels are systematically higher in this new location the "tight/leaky" characteristics of these codon contexts are essentially fully determined by the two codons flanking the nonsense codon itself. Analysis of some UGA hybrid contexts shows that the contribution to the codon context character by the codon either at the 5'-side (CCA or AGC) or at the 3'-side (NGU) is independent of the nature of the codon at the other side of UGA if this codon is decoded by trpT(Su9) suppressor tRNA. In a trpT(Su9), miaA double mutant strain, which lacks the ms2i6A37 modification in this tRNA, suppression is decreased at all UGA contexts investigated. However, in one case the contribution to the codon context character by the determinant flanking at one side is negatively affected by the nature of the codon at the other side of UGA. Thus, the character of a nonsense codon context in this case results from both flanking codons acting in a co-operative manner with the tRNA reading the middle UGA codon. This negative context effect is counteracted by a rpsD12 (ribosomal protein S4) mutation or by a sublethal concentration of streptomycin in the growth medium. It is suggested that the ms2i6A37 base in trpT(Su9) suppressor tRNA increases the efficiency of this tRNA by protecting it from ribosomal proofreading which is induced by codon context.
J Mol Biol 1993 Aug 20
PMID:UGA codon context which spans three codons. Reversal by ms2i6A37 in tRNA, mutation in rpsD(S4) or streptomycin. 837 Dec 64

On the basis of the experiments carried out with rnhA224 mutants, we previously concluded that RNase HI is not essential for initiation of Escherichia coli chromosome replication at oriC (T. Kogoma, N.L. Subia, and K. von Meyenburg, Mol. Gen. Genet. 200:103-109, 1985). In light of the recent finding that rnhA224 is a UGA nonsense mutation which can be leaky in certain genetic backgrounds, we reexamined this conclusion with the use of rnhA339 (Null)::cat mutants. The possibility that recB+ is required for initiation at the alternative origins (oriKs) of replication in rnhA mutants was also tested. The results clearly indicated that RNase HI is not essential for oriC initiation and that recB+ is not required for initiation at oriK sites.
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PMID:Absence of a direct role for RNase HI in initiation of DNA replication at the oriC site on the Escherichia coli chromosome. 840 51

We previously reported that in Micrococcus luteus, a Gram-positive eubacterium with high genomic G + C content, certain codons ending with A did not appear in coding frames, including termination sites, and tRNAs that translate these codons were not detected. These facts suggest that at least some of them are unassigned (nonsense) codons, i.e. not assigned to any amino acid or to any stop signal. We have investigated whether AGA and AUA, universal Arg and Ile codons, respectively, are really unassigned codons by using a cell-free extract prepared from M. luteus and synthetic messenger RNAs. Translation of synthetic mRNA containing in-frame AGA codons does not result in "read-through" to codons beyond the AGA codons, i.e. translation ceases at codon AGA. Essentially the same result was obtained with mRNA containing AUA in-frame. A sucrose-gradient centrifugation profile of the reaction mixture has shown that practically all of the peptides that have been synthesized are attached to 70 S ribosomes. When in-frame AGA or AUA codons are replaced by UGA codons in mRNA, no read-through occurs beyond UGA, just as in the case of AGA or AUA. However, the synthesized peptide is released from the 70 S ribosomes. These data suggest that AGA and AUA are unassigned codons and differ from UGA in that they are not used for termination.
J Mol Biol 1993 Mar 05
PMID:Unassigned or nonsense codons in Micrococcus luteus. 845 May 50

We have tested the effect of increased ribosomal fidelity on a modified version of the programmed release factor 2 (RF2) translational frameshift. In the constructs tested, the original UGA codon at the site of the shift was replaced by either of two sense codons, UGG (tryptophan), which allows a frameshift of approximately 13%, or CUG (leucine), which allows a frameshift of only approximately 2%. We confirmed the results of Curran and Yarus [Curran, J. F. & Yarus, M. (1989) J. Mol. Biol. 209, 65-77] in a wild-type ribosomal host, including a reduction of the UGG shift following induction of tRNA(Trp) from a plasmid copy of the tRNA gene. But to our surprise, in a hyperaccurate streptomycin pseudo-dependent host, the UGG frameshift increased to more than 50%. When we added a tRNA(Trp) plasmid to these cells, induction of the tRNA(Trp) gene reduced the shift back to approximately 7%. Messenger RNA levels did not vary greatly under these different induced conditions. Other increased accuracy alleles also showed increased frameshifting with UGG at the frameshift site. All increased accuracy alleles led to slower translation rates, and there appeared to be a proportionality between the extent of reduction of synthesis for the in-frame reporter and the extent of UGG frameshift for the out-of-frame reporter. There were little effects of increased accuracy on the lower level CUG frameshift. However, over-production of the cognate tRNA(1Leu) dramatically reduced even this lower level of shift, despite the fact that tRNA(1Leu) is already the most abundant isoacceptor in Escherichia coli. These results can be rationalized by following the hypothesis of Curran and Yarus as follows: with wild-type ribosomes, limited availability of tRNA(Trp) (about 1% of total tRNA) facilitates a pause at the UGG codon (due to the vacant A site), allowing increased opportunity for ribosome realignment. Excess tRNA(Trp) reduces the time the A site is vacant and thus reduces the frameshift. The slower hyperaccurate ribosomes increase the pause time and thus increase the opportunity for shifting, a process again reversed by increasing the in-frame cognate tRNA(Trp). These data provide strong support for a model in which the extent of ribosome pause time at a programmed frameshift site is a major determinant in the efficiency of the frameshift and in which tRNA availability can be a major influence on this process.
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PMID:Increased ribosomal accuracy increases a programmed translational frameshift in Escherichia coli. 846 Jan 40

cyr1-2 is a temperature-sensitive mutation of the yeast adenylate cyclase structural gene, CYR1. The cyr1-2 mutation has been suggested to be a UGA mutation since a UGA suppressor SUP201 has been isolated as a suppressor of the cyr1-2 mutation. Construction of chimeric genes restricted the region containing the cyr1-2 mutation, and the cyr1-2 UGA mutation was identified at codon 1282, which lies upstream of the region coding for the catalytic domain of adenylate cyclase. Alterations in the region upstream of the cyr1-2 mutation site result in null mutations. The complete open reading frame of the cyr1-2 gene expressed under the control of the GAL1 promoter complemented cyr1-d1 in a galactose-dependent manner. These results suggest that at the permissive temperature weak readthrough occurs at the cyr1-2 mutation site to produce low levels of active adenylate cyclase. An endogenous suppressor in yeast cells is assumed to be responsible for this readthrough.
Mol Gen Genet 1993 Mar
PMID:Characterization of the cyr1-2 UGA mutation in Saccharomyces cerevisiae. 848 61

The termination of protein synthesis in bacteria requires two codon-specific polypeptide-release factors, RF-1 and RF-2. A third factor, RF-3, stimulates the RF-1 and RF-2 activities in vitro. To clarify the in vivo role of RF-3 for the RF-2 dependent termination, we isolated and characterized suppressor mutations for the temperature-sensitive RF-2 mutation prfB286. One of the intergenic suppressor mutations, srb-1, acquired an up-promoter alteration in the RF-3 gene, which enhanced the RF-3 expression four- to fivefold. Consistently a threefold increase in the RF-3 level by a promoter-controlled expression plasmid suppressed prfB286. On the other hand, a temperature-sensitive mutation in RF-1, prfA1, was suppressed only slightly by the high-level expression of wild-type RF-3. The RF-3 mutations that suppress prfA1 were isolated and named sra. They were classified into four specific alleles; two each in the N and C-terminal regions. These altered RF-3 proteins restored the RF-1-dependent termination at UAG in prfA1 cells. Moreover, they enhanced the RF-2-dependent UGA termination in both wild-type and prfB286 cells. The termination-stimulating activity of RF-3 was further additively increased by the double sra mutations, suggesting that they affected two distinct protein domains that modulate the termination reaction. Taking these and other results into consideration, RF-3 is likely to interact functionally and cooperatively with the release factors RF-1 and RF-2 in Escherichia coli.
J Mol Biol 1996 May 17
PMID:Suppression of temperature-sensitive defects of polypeptide release factors RF-1 and RF-2 by mutations or by an excess of RF-3 in Escherichia coli. 863 94

Wall-less prokaryotes in the genus Mycoplasma include over 90 species of infectious agents whose pathogenicity for humans and other animals is currently being assessed. Molecular characterization of surface proteins is critical in this regard but is hampered by the lack of genetic systems in these organisms. We used TnphoA transposition to systematically mutagenize, in Escherichia coli, a genomic plasmid library constructed from Mycoplasma fermentans, a potential human pathogen. The strategy circumvented problems of expressing mycoplasma genes containing UGA (Trp) codons and relied on the construction of the vector pG7ZCW, designed to reduce TnphoA transposition into vector sequences. Functional phoA gene fusions directly identified genes encoding 19 putative membrane-associated proteins of M. fermentans. Sequences of fusion constructs defined three types of export sequence: (1) non-cleavable, membrane-spanning sequences, (2) signal peptides with signal peptidase (SPase) I-like cleavage sites, and (3) signal peptides with SPase II-like lipoprotein-cleavage sites which, like most other mycoplasmal lipoprotein signals analysed to date, differed from those in several Gram-negative and Gram-positive eubacteria in their lack of a Leu residue at the -3 position. Antibodies to synthetic peptides that were deduced from two fusions to predicted lipoproteins, identified corresponding amphiphilic membrane proteins of 57 kDa and 78 kDa expressed in the mycoplasma. The P57 sequence contained a proline-rich N-terminal region analogous to an adhesin of Mycoplasma gallisepticum. The P78 protein was identical to a serologically defined phase-variant surface lipoprotein. TnphoA mutagenesis provides an efficient means of systematically characterizing functionally diverse lipoproteins and other exported proteins in mycoplasmas.
Mol Microbiol 1995 Oct
PMID:Identification of mycoplasma membrane proteins by systematic Tn phoA mutagenesis of a recombinant library. 870 47

The rate of mRNA decay is an important step in the control of gene expression in prokaryotes, eukaryotes and cellular organelles. Factors that determine the rate of mRNA decay in chloroplasts are not well understood. Chloroplast mRNAs typically contain an inverted repeat sequence within the 3' untranslated region that can potentially fold into a stem-loop structure. These stem-loop structures have been suggested to stabilize the mRNA by preventing degradation by exonuclease activity, although such a function in vivo has not been clearly established. Secondary structures within the translation reading frame may also determine the inherent stability of an mRNA. To test the function of the inverted repeat structures in chloroplast mRNA stability mutants were constructed in the psaB gene that eliminated the 3' flanking sequences of psaB or extended the open reading frame into the 3' inverted repeat. The mutant psaB genes were introduced into the chloroplast genome of Chlamydomonas reinhardtii. Mutants lacking the 3' stem-loop exhibited a 75% reduction in the level of psaB mRNA. The accumulation of photosystem I complexes was also decreased by a corresponding amount indicating that the mRNA level is limiting to PsaB protein synthesis. Pulse-chase labeling of the mRNA showed that the decay rate of the psaB mRNA was significantly increased demonstrating that the stem-loop structure is required for psaB mRNA stability. When the translation reading frame was extended into the 3' inverted repeat the mRNA level was reduced to only 2% of wild-type indicating that ribosome interaction with stem-loop structures destabilizes chloroplast mRNAs. The non-photosynthetic phenotype of the mutant with an extended reading frame allowed us to test whether infrequently used stop codons (UAG and UGA) can terminate translation in vivo. Both UAG and UGA are able to effectively terminate PsaB synthesis although UGA is never used in any of the Chlamydomonas chloroplast genes that have been sequenced.
Plant Mol Biol 1996 May
PMID:Function of 3' non-coding sequences and stop codon usage in expression of the chloroplast psaB gene in Chlamydomonas reinhardtii. 875 97

The nucleotide sequence of region 2 of the Escherichia coli K5 capsule gene cluster has been determined. This region, essential for the biosynthesis of the K5 polysaccharide, contained four genes, termed kfiA-D. The G + C ratio was 33.4%, which was lower than the typical G + C ratio for E. coli and that of the flanking regions 1 and 3 in the K5 capsule gene cluster. Three major RNA transcripts were detected within region 2 by Northern blotting and three promoters located by transcript mapping. Promoter activity was confirmed by promoter-probe analysis. The predicted amino acid sequence of KfiC had homology to a number of glycosyl transferase enzymes and overexpression of the KfiC gene resulted in increased K5 transferase activity. The predicted amino acid sequence of KfiD had homology to a number of NAD-dependent dehydrogenase enzymes and was demonstrated to be a UDP-glucose dehydrogenase that catalyses the information of UDP-glucuronic acid from UDP-glucose.
Mol Microbiol 1995 Aug
PMID:Region 2 of the Escherichia coli K5 capsule gene cluster encoding proteins for the biosynthesis of the K5 polysaccharide. 880 16

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