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: UNIPROT:Q07644 (polypeptide)
72,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lenses from rat or calf were exposed in vitro to UV radiation from a nitrogen laser operated at 337.1 nm or from an excimer laser operated at 3.8 nm. Visible light transmission was monitored during calf lens irradiations at 308 nm and found to decrease. Proteins were extracted from the irradiated rat or calf lenses, separated into water soluble and insoluble fractions, and analysed using SDS-PAGE. Comparison of these gels with dark controls showed that, following photolysis, there was loss of polypeptide material in the 20-30 kDa region and concomitant formation of polymers at 40 and 60 kDa, and at greater than 100 kDa in calf lens (308 nm irradiation) and rat lenses (337.1 nm irradiation) in vitro. In addition, there was evidence for formation of lower molecular weight polypeptides at 10 kDa in the protein from irradiated rat lenses. The rat SDS-PAGE gels were challenged against anti-calf gamma crystallin serum. There was clear evidence that the polymeric material, in the water insoluble protein fraction from the 337.1 nm photolyzed rat lenses was derived in part from gamma crystallin. The macromolecular changes detected in these photolyzed rat and calf lens proteins were similar to those previously reported to accompany aging in the human lens. Biochemical changes of the type observed in UV irradiated rat and calf lenses may be responsible for the loss of visible light transmission seen in calf lenses.
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PMID:UV laser photodamage to whole lenses. 261 89

Synthesis of the Escherichia coli outer membrane protein BtuB, which mediates the binding and transport of vitamin B12, is repressed when cells are grown in the presence of vitamin B12. Expression of btuB-lacZ fusions was also found to be repressed, and selection for constitutive production of beta-galactosidase in the presence of vitamin B12 yielded mutations at btuR. The btuR locus, at 27.9 min on the chromosome map, was isolated on a 952-base-pair EcoRV fragment, and its nucleotide sequence was determined. The BtuR protein was identified in maxicells as a 22,000-dalton polypeptide, as predicted from the nucleotide sequence. Strains mutant at btuR had negligible pools of adenosylcobalamin but did convert vitamin B12 into other derivatives. Although btuB expression in a btuR strain could not be repressed by cyano- or methylcobalamin, it was repressed by adenosylcobalamin. Growth on ethanolamine as the sole nitrogen source requires adenosylcobalamin. btuR mutants grew on ethanolamine but were affected in the length of the lag period before initiation of growth, which suggested that an alternative route for adenosylcobalamin synthesis might exist. No mutations were found that conferred constitutive btuB expression in the presence of adenosylcobalamin. Other genes near btuR may also be involved in cobalamin metabolism, as suggested from the complementation behavior of strains generated by excision of the Tn10 element in btuR. These results indicated that the btuR product is involved in the metabolism of adenosylcobalamin and that this cofactor, or some derivative, controls btuB expression.
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PMID:Altered cobalamin metabolism in Escherichia coli btuR mutants affects btuB gene regulation. 264 87

We have detected activity of the nitrogen fixation regulatory protein NIFA of Klebsiella pneumoniae in vitro. To do so we directed synthesis of NIFA in a coupled transcription-translation system and detected its ability to activate expression of a translational fusion between the nifH and lacZ genes. We infer that NIFA stimulates initiation of transcription by sigma 54 holoenzyme from the nifHDK promoter. The activity of NIFA was lost rapidly under both aerobic and anaerobic conditions at 30 degrees C and was lost somewhat less rapidly at 0 degrees C. Loss of activity was not accompanied by degradation of NIFA polypeptide. Loss of activity was approximately exponential and was not affected by NIFA concentration over a 5-fold range. Therefore, NIFA inactivation does not appear to be due to self-association. We found that the factor in crude extracts previously demonstrated to bind to the nifHDK promoter-regulatory region [Beynon, J., Cannon, M., Buchanan-Wollaston, V., and Cannon, F. (1983) Cell 34, 665-671] is the integration host factor, which is known to bend DNA. Since the binding site for integration host factor lies between the upstream binding site for NIFA and the nifHDK promoter, integration host factor may bend the DNA between these two sites to facilitate productive interactions between NIFA and sigma 54 holoenzyme.
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PMID:In vitro activity of the nitrogen fixation regulatory protein NIFA. 267 99

Strains of Rhizobium leguminosarum biovar viciae specifically make an abundant protein (Rhi) in free-living culture but not in bacteroids. Genes needed for Rhi synthesis are on a Sym plasmid and here we show that one of these genes, rhiA, is the structural gene that specifies this polypeptide. Transcription of rhiA requires a regulatory gene, rhiR, located close to rhiA and to nod genes involved in nodulation. Mutations in rhiA or rhiR do not appear to affect symbiotic nitrogen fixation. Transcription of rhiA is repressed in cells grown in the presence of the flavanone hesperetin or the flavone apigenin, both of which are potent inducers of transcription of nod genes. This was deduced from the use of rhiA-lacZ fusions; however, when the Rhi polypeptide was detected in SDS gels, there was no apparent difference in the intensity of its staining in extracts obtained from cells grown with or without these flavanoid nod gene inducer molecules. However, a mutation in a nodulation gene, nolR, also closely linked to the nod and rhi genes, caused a severe depression in the amount of Rhi (as seen on gels) that was made in cells grown in the presence of inducer flavanoids.
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PMID:Transcription of rhiA, a gene on a Rhizobium leguminosarum bv. viciae Sym plasmid, requires rhiR and is repressed by flavanoids that induce nod genes. 271 20

A ca. 20-kilobase (kb) region (hrp) that controls the interaction of Pseudomonas syringae pv. phaseolicola with its host (pathogenicity) and nonhost plants (hypersensitive reaction) was previously cloned and partially characterized. In this study we defined the limits and determined the nucleotide sequence of a hrp locus (hrpS), located near the right end of the hrp cluster. The largest open reading frame (ORF302) in hrpS has a coding capacity for a 302-amino-acid polypeptide. The predicted amino acid sequence of the translation product of ORF302 (HrpS) shows significant similarity to several procaryotic regulatory proteins, including the NtrC, NifA, and DctD proteins of Rhizobium spp., the NtrC and NifA proteins of Klebsiella pneumoniae, and the TyrR protein of Escherichia coli. These proteins regulate diverse operons involved in nitrogen fixation, transport and metabolism of amino acids, and transport of C-4 dicarboxylic acids. The HrpS protein appears to be the shortest naturally occurring member of this family of proteins, corresponding for the most part to the highly conserved central domain of these proteins, which contains a putative ATP-binding site. A C-terminal segment analogous to the less-well-conserved domain, involved in DNA binding of NtrC and NifA, is also present in HrpS. These similarities suggest that HrpS is a regulatory protein. In line with this prediction is the finding that a functional hrpS gene is necessary for the activation of another hrp locus during the plant-bacterium interaction.
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PMID:The predicted protein product of a pathogenicity locus from Pseudomonas syringae pv. phaseolicola is homologous to a highly conserved domain of several procaryotic regulatory proteins. 276 97

The glnB gene from Bradyrhizobium japonicum, the endosymbiont of soybeans (Glycine max), was isolated and sequenced, and its expression was examined under various culture conditions and in soybean nodules. The B. japonicum glnB gene encodes a 12,237-dalton polypeptide that is highly homologous to the glnB gene products from Klebsiella pneumoniae and Escherichia coli. The gene is located directly upstream from glnA (encoding glutamine synthetase), a linkage not observed in enteric bacteria. The glnB gene from B. japonicum is expressed from tandem promoters, which are differentially regulated in response to the nitrogen status of the medium. Expression from the downstream promoter involves the B. japonicum ntrC gene product (NtrC) in both free-living and symbiotic cells. Thus, glnB, a putative nitrogen-regulatory gene in B. japonicum, is itself Ntr regulated, and NtrC is active in B. japonicum cells in their symbiotic state.
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PMID:Bradyrhizobium japonicum glnB, a putative nitrogen-regulatory gene, is regulated by NtrC at tandem promoters. 279 30

Certain DNA-binding proteins that regulate gene expression contain single or multiple copies of short polypeptide sequences, approximately 30 residues long, consisting of combinations of four Cys or His residues at defined spacing, so that Zn++ is complexed in tetrahedral coordination with the respective thiol-sulfur and/or imidazole-nitrogen atoms. The Zn++ ion evidently serves as a strut that stabilizes folding of the domain into a 'finger-loop', which is capable of site-specific binding to double-stranded DNA. This article reviews the evidence (a) that finger-loop domains have been highly conserved during evolution, (b) that they furnish one of the fundamental mechanisms for regulating gene expression, and (c) that a metal ion (e.g., Zn++) is required for binding of finger-loops to DNA and for their biological functions. The authors' search of amino acid sequences of 38 transforming proteins identified possible finger-loop domains in the myc, fms, fps, raf-1, rfp, src, syn, yes, erbA, int-1, and TGF-alpha gene-products. The search incidentally revealed possible finger-loop domains in human insulin receptor, which may provide a mechanistic explanation for recent observations that insulin, after binding to its cell surface receptor, is translocated to hepatocyte nuclei and becomes bound to chromatin. Zn++-coordination sites in finger-loop domains are proposed as potential targets for metal toxicity; substitution of Ni++, Co++, or Cd++ for Zn++ in finger-loops of transforming proteins is suggested as an hypothetical mechanism for metal carcinogenesis.
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PMID:Finger-loops, oncogenes, and metals. Claude Passmore Brown memorial lecture. 284

The nucleotide sequence of a region located downstream of the nifB gene, both in the cyanobacterium Anabaena sp. strain PCC 7120 and in Rhizobium meliloti, has been determined. This region contains a gene (fdxN) whose predicted polypeptide product strongly resembles typical bacterial ferredoxins. Cyanobacteria have not previously been shown to contain bacterial-type ferredoxins. The presence of this gene suggests that nitrogen-fixing cyanobacteria have at least four distinct ferredoxins.
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PMID:Bacterial-type ferredoxin genes in the nitrogen fixation regions of the cyanobacterium Anabaena sp. strain PCC 7120 and Rhizobium meliloti. 284 20

Expression of the cloned glnA gene [coding for glutamine synthetase (EC 6.3.1.2)] of Bacillus subtilis was 10-fold higher in an Escherichia coli strain grown under nitrogen-limiting conditions than in the same strain under nitrogen-excess conditions. Mutations in the E. coli glnA, glnB, glnD, glnE, glnF, glnG, and glnL genes had no effect on the observed regulation. To test whether sequences within the B. subtilis DNA (3.2 kilobase pairs) were responsible for the observed regulation, a plasmid carrying a transcriptional fusion of the B. subtilis glnA promoter with E. coli lacZ was constructed. beta-Galactosidase levels coded for by this plasmid were found to be negatively regulated in trans by a plasmid carrying the entire B. subtilis glnA gene. Analysis of various deletion plasmids showed that the 1.4-kilobase-pair region encoding glutamine synthetase was necessary for the observed regulation of beta-galactosidase. Plasmids coding for 67% or more of the glutamine synthetase polypeptide gave at least partial repression, but a plasmid carrying 30% of the structural gene, as well as a plasmid carrying a deletion internal to glnA, gave no repression. DNA downstream from glnA (to within 130 base pairs of the end of the gene) was not required for the observed regulation. These results suggest that the glnA gene of B. subtilis is autoregulated, supporting the model for glnA control proposed by Dean et al. [Dean, D. R., Hoch, J. A. & Aronson, A. I. (1977) J. Bacteriol. 131, 981-987].
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PMID:Regulation of expression from the glnA promoter of Bacillus subtilis requires the glnA gene product. 286 Jun 69

The biosynthetic activities of the polypeptide subunits alpha and beta of glutamine synthetase (GS) were inhibited in vitro by glycine and serine. These amino acids inhibited the growth of a mutant strain with partial GS activity when grown on glutamate as the nitrogen source and also blocked the synthesis of the glutamine in vivo, thus demonstrating the inhibitory effect on GS activity in vivo. Glycine and serine lowered the intracellular glutamine pool and regulated GS beta synthesis. A preferential induction of synthesis of the GS beta polypeptide was observed when either of these amino acids was present in the medium. On this basis, we obtained a glycine-sensitive mutant which showed a structural alteration of the GS beta polypeptide. The double regulatory effect of either glycine or serine on glutamine synthesis may be considered an example of the regulation of glutamine synthesis by alpha-amino nitrogen. It may be a mechanism that regulates the assimilation of ammonium into glutamate versus glutamine.
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PMID:Regulation of glutamine synthesis by glycine and serine in Neurospora crassa. 286 84


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