UNIPROT:Q07644 - FACTA Search

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

A 4 kb SalI fragment from Azospirillum brasilense Sp7 that shares homology with a 6.8 kb EcoRI fragment carrying nodGEFH and part of nodP of Rhizobium meliloti 41 was cloned in pUC18 to yield pAB503. The nucleotide sequence of a 2 kb SalI-SmaI fragment of the pAB503 insert revealed an open reading frame, named ORF3, encoding a polypeptide sharing 40% identity with R. meliloti NodG. The deduced polypeptide also shared 60% identity with the Alcaligenes eutrophus NADPH-dependent acetoacetyl-CoA (AA-CoA) reductase, encoded by the phbB gene and involved in poly-beta-hydroxybutyrate (PHB) synthesis. Northern blot analysis and promoter extension mapping indicated that ORF3 is expressed as a monocistronic operon from a promoter that resembles the Escherichia coli sigma 70 consensus promoter. An ORF3-lacZ translational fusion was constructed and was very poorly expressed in E. coli, but was functional and constitutively expressed in Azospirillum. Tn5-Mob insertions in ORF3 did not affect growth, nitrogen fixation, PHB synthesis or NAD(P)H-linked AA-CoA reductase activity. An ORF3 DNA sequence was used to probe total DNA of several Azospirillum strains. No ORF3 homologues were found in A. irakense, A. amazonense, A. halopraeferens or in several A. lipoferum strains.
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PMID:Characterization of an Azospirillum brasilense Sp7 gene homologous to Alcaligenes eutrophus phbB and to Rhizobium meliloti nodG. 153 94

Nitrogenase contains approximately 38 iron ions/complete unit. Therefore, we sought to identify steps and genes involved in nitrogenase production that are responsive to iron availability. We have characterized nitrogenase production in Klebsiella pneumoniae grown in a range of different iron concentrations. We find significant accumulation (50-75%) and normal synthesis rates of the structural polypeptides, even under conditions in which the observed nitrogenase activities are only 14-28% of those observed in iron-sufficient conditions. Thus, maturation instead of synthesis of the structural polypeptides is primarily responsible for the iron dependence of nitrogenase activity. We have also used a binary plasmid system in Escherichia coli to investigate the contributions of various nitrogen fixation (nif) genes to the iron dependence of nitrogenase production. At least one of the nif genes DKTYENXUSVW can modulate synthesis of the structural polypeptide NIF H in response to iron availability. We speculate that an iron-deficient complex of the product(s) of at least one of these genes may repress structural polypeptide synthesis in iron-depleted K. pneumoniae. Such a system would compensate for the inactivity of NIF L in iron-depleted cultures and ensure balanced production of the structural polypeptides of nitrogenase in accordance with the iron available for their maturation.
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PMID:The dependence on iron availability of allocation of iron to nitrogenase components in Klebsiella pneumoniae and Escherichia coli. 157 67

A gamete lytic enzyme (GLE) of Chlamydomonas reinhardtii is a zinc metalloprotease and mediates digestion of the cell walls of the two mating-type gametes during mating as a necessary prelude to cell fusion. The nucleotide sequence analysis of a cDNA revealed that GLE is synthesized in a preproenzyme form, a 638-amino acid polypeptide (Mr, 69,824) with a 28-amino acid signal peptide, a 155-amino acid propolypeptide, and a 455-amino acid mature polypeptide (Mr, 49,633). A potential site for autocatalytic activation was contained within the propolypeptide and a zinc binding site found within the mature polypeptide; both sites were highly homologous to those in mammalian collagenase. A putative calcium binding site was present in the near C-terminal region of the mature GLE. Both propolypeptide and mature polypeptide had potential sites for asparagine-linked glycosylation, and the Arg-(Pro)3 and Arg-(Pro)2 motifs, which are known to exist in hydroxyproline-rich glycoproteins of the Chlamydomonas cell wall. Northern blot analysis revealed that steady-state levels of the 2.4-kilobase GLE mRNA increased during growth and mitotic cell division in the vegetative cell cycle and also increased markedly during gametogenesis under nitrogen-starved conditions.
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PMID:Primary structure and expression of a gamete lytic enzyme in Chlamydomonas reinhardtii: similarity of functional domains to matrix metalloproteases. 158 6

Muscle protein degradation has an important role in rate of muscle growth. It has been difficult to develop procedures for measuring rate of muscle protein degradation in living animals, and most studies have used in vitro systems and muscle strips to determine rate of protein degradation. The relationship between results obtained by using muscle strips and rate of muscle protein turnover in living animals is unclear because these strips are in negative nitrogen balance and often develop hypoxic cores. Also, rate of protein degradation is usually estimated by release of labeled amino acids, which reflects an average rate of degradation of all cellular proteins and does not distinguish between rates of degradation of different groups of proteins such as the sarcoplasmic and the myofibrillar proteins in muscle. A number of studies have suggested that the calpain system initiates turnover of myofibrillar proteins, which are the major group of proteins in striated muscle, by making specific cleavages that release thick and thin filaments from the surface of the myofibril and large polypeptide fragments from some of the other myofibrillar proteins. The calpains do not degrade myofibrillar proteins to small peptides or to amino acids, and they cause no bulk degradation of sarcoplasmic proteins. Hence, the calpains are not directly responsible for release of amino acids during muscle protein turnover. Activity of the calpains in living cells is regulated by calpastatin and Ca2+, but the nature of this regulation is still unclear.
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PMID:Role of the calpain system in muscle growth. 161 Sep 36

A photoactive photosystem I complex has been purified from the filamentous, nitrogen-fixing cyanobacterium Anabaena variabilis ATCC 29413. Cells were broken using glass beads, and the membrane fraction was solubilized with beta-dodecyl maltoside followed by two rounds of fast protein liquid chromatography on anion exchange columns. The polypeptide composition of the isolated complex was determined by sodium dodecyl sulfate-urea-polyacrylamide gel electrophoresis and N-terminal amino acid sequencing of the fractionated proteins. The purified complex consists of at least 11 proteins, identified as the PsaA, PsaB, PsaC, PsaD, PsaE, PsaF, PsaI, PsaJ, PsaK, PsaL, and PsaN proteins. The spectrum of the flash-induced absorbance change measured between 670 and 830 nm shows that the purified complex contains 99 +/- 11 chlorophyll a molecules per P700, the primary donor in photosystem I. The kinetics of the rereduction of oxidized P700 following an actinic flash indicate that forward electron transfer from P700 to the FA/FB iron-sulfur center acceptors is functional in the isolated complex.
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PMID:Purification and characterization of the photosystem I complex from the filamentous cyanobacterium Anabaena variabilis ATCC 29413. 161 55

The catabolic L-serine (L-threonine) dehydratase of Saccharomyces cerevisiae allows the yeast to grow on media with L-serine or L-threonine as sole nitrogen source. Previously we have cloned the CHA1 gene by complementation of a mutant, cha1, lacking the dehydratase activity. Here we present the DNA sequence of a 1,766-bp fragment of the CHA1 region encompassing an open reading frame of 1080 bp. Comparison of the predicted amino acid sequence of the CHA1 polypeptide with that of other serine/threonine dehydratases revealed several blocks of sequence homology. Thus, the amino acid sequence of rat liver serine dehydratase (SDH2) and the CHA1 polypeptide are 44% homologous allowing for conservative substitutions, while 36% similarity is found between the catabolic threonine dehydratase (tdcB) of Escherichia coli and the CHA1 protein. This strongly suggests that CHA1 is the structural gene for the yeast catabolic serine (threonine) dehydratase. S1-nuclease mapping of the CHA1 mRNA ends showed a major transcription initiation site corresponding to an untranslated leader of about 19 nucleotides, while a major polyadenylation site was located about 86 nucleotides downstream from the open reading frame. Furthermore, we have mapped the chromosomal position of the CHA1 gene to less than 0.5 kb centromere proximal to HML on the left arm of chromosome III.
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PMID:Serine and threonine catabolism in Saccharomyces cerevisiae: the CHA1 polypeptide is homologous with other serine and threonine dehydratases. 162 4

The GLN3 gene of Saccharomyces cerevisiae is required for the activation of transcription of a number of genes in response to the replacement of glutamine by glutamate as source of nitrogen. We cloned the GLN3 gene and constructed null alleles by gene disruption. GLN3 is not essential for growth, but increased copies of GLN3 lead to a drastic decrease in growth rate. The complete nucleotide sequence of the GLN3 gene was determined, revealing one open reading frame encoding a polypeptide of 730 amino acids, with a molecular weight of approximately 80,000. The GLN3 protein contains a single putative Cys2/Cys2 zinc finger which has homology to the Neurospora crassa NIT2 protein, the Aspergillus nidulans AREA protein, and the erythroid-specific transcription factor GATA-1. Immunoprecipitation experiments indicated that the GLN3 protein binds the nitrogen upstream activation sequence of GLN1, the gene encoding glutamine synthetase. Neither control of transcription nor control of initiation of translation of GLN3 is important for regulation in response to glutamine availability.
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PMID:Sequence and expression of GLN3, a positive nitrogen regulatory gene of Saccharomyces cerevisiae encoding a protein with a putative zinc finger DNA-binding domain. 168

Glutamine synthetase (GS) plays an important role in the assimilation of nitrogen by higher plants. We present here a molecular analysis of the GS polypeptides, mRNAs, and genes of Arabidopsis thaliana. Western blot analysis of leaf and root protein extracts revealed at least two distinct GS polypeptides; 43 kDa and 39 kDa GS polypeptides were present in leaves, while only a 39 kDa GS was detected in roots. The 43 kDa GS polypeptide is light-inducible. In etiolated seedlings only the 39 kDa GS was detected. However, upon greening the 43 kDa GS increased to levels comparable to those observed in light-grown plants. Four distinct GS cDNA clones, lambda Atgsl1, lambda Atgsr1, lambda Atgsr2 and lambda Atkb6 were isolated and characterized. Their complete nucleotide and deduced amino acid sequences are presented. The coding sequences of the four clones are 70-88% similar while their 5' and 3' untranslated regions exhibit less than 50% similarity. Northern blots of leaf, root and germinated seed RNA revealed that the four cDNAs hybridize to mRNAs which are differentially expressed in the organs of Arabidopsis thaliana. lambda Atgsl1 is leaf-specific and hybridizes to a 1.6 kb mRNA. Both lambda Atgsr1 and lambda Atgskb6 hybridize to 1.4 kb mRNAs which are expressed in both roots and germinated seeds. lambda Atgsr2 hybridizes to a 1.4 kb mRNA, which is primarily expressed in roots with low levels of expression in seeds and leaves. lambda Atgsl1, which represents the leaf-specific mRNA, is induced by light. lambda Atgsl1 mRNA levels increase during the greening of etiolated seedlings while lambda Atgsr1 levels remain constant. Southern blot analysis indicated that the Arabidopsis genome contains at least four and possibly five distinct GS genes.
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PMID:The glutamine synthetase gene family of Arabidopsis thaliana: light-regulation and differential expression in leaves, roots and seeds. 168 22

A Saccharomyces cerevisiae genomic DNA encoding vacuolar carboxypeptidase yscS was cloned from a yeast YEp13 library by complementation of the previously characterized mutation cps1-1 [(1981) J. Bacteriol. 147, 418-426], by means of staining carboxypeptidase activity in yeast colonies. The nucleotide sequence of the cloned gene was determined. The open reading frame of CPS1 consists of 576 codons and therefore encodes a protein of 64961 molecular weight. A stretch of 19 residues near the N-terminus of the deduced polypeptide sequence contains characteristics common to known hydrophobic leader sequences. CPS1 was determined by DNA blot analysis to be a single copy gene located on chromosome X. The cloned fragment was used to identify a 2.1 kb mRNA. A transcriptional activation of CPS1 occurs when cells grow on a substrate of carboxy-peptidase yscS as sole nitrogen source.
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PMID:Molecular cloning and sequencing of genomic DNA encoding yeast vacuolar carboxypeptidase yscS. 170 81

We have cloned and sequenced the pckA gene of Rhizobium sp. NGR234, a broad host-range strain. The gene encodes phosphoenolpyruvate carboxykinase (PEPCK), a key enzyme of gluconeogenesis. The locus was isolated and subcloned from a genomic library of NGR234 employing hybridization with an R. meliloti pck gene probe and complementation of a Tn5 mutant in this species. The DNA sequence of pckA (NGR234) was determined and encoded a PEPCK protein of 535 amino acids with a molecular weight of 58.4 kDa. The deduced polypeptide sequence was compared to those of three known ATP-dependent PEPCKs. Slightly higher homology was observed with yeast and trypanosome polypeptides than with that of Escherichia coli. We have identified several regions that are conserved in all four PEPCK proteins. A mutant constructed in the pck gene by site-directed mutagenesis with interposon omega failed to grow on succinate, malate and arabinose but grew on glucose and glycerol as sole carbon sources. These data show that NGR234 requires PEPCK-driven gluconeogenesis to grow on TCA cycle intermediates. A host-dependent effect of the pckA mutation was observed on nodule development and nitrogen fixation. Nodules formed by the site-directed mutant on Leucaena leucocephala and Macroptilium atropurpureum were FixRed, but on Vigna unguiculata were Fix-. The expression of the gene was positively regulated in free-living cells of NGR234 by either succinate or host-plant exudates, and was subject to catabolite repression by glucose.
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PMID:Site-directed mutagenesis and DNA sequence of pckA of Rhizobium NGR234, encoding phosphoenolpyruvate carboxykinase: gluconeogenesis and host-dependent symbiotic phenotype. 172 Aug 62

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