UMLS:C1832526 - FACTA Search

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Query: UMLS:C1832526 (PCC)
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Previous studies [G. S. Hudson et al. (1989) J. Biol. Chem. 265, 808-814] showed that the faster turnover rates and lower affinities for CO2 of ribulosebisphosphate carboxylase/oxygenases from C4 plants, compared to C3 and C3/C4 plants, were specified by the chloroplast-encoded large subunits. In pairs of closely related C3 and C4 species from three genera, these kinetic changes were accompanied by only three to six amino acid residue substitutions, depending on the genus. None of these substitutions occurred near the active site and only one, 309Met (C3) to Ile (C4), was common to all three genera. Unlike the plant carboxylases, the highly homologous enzyme from the cyanobacterium Synechococcus PCC 6301 folds and assembles properly when its rbcL and rbcS genes are coexpressed in Escherichia coli. Furthermore, the cyanobacterial enzyme has Ile at position 309 of the large subunit, a high turnover number, and a poor affinity for CO2. 309Ile was replaced with Met and several other residues by site-directed mutagenesis of the cyanobacterial rbcL. Met and Leu were tolerated at this position with no alteration in the kinetic or structural properties of the assembled holoenzyme. However, substitution with Val, Gly, Trp, or Arg prevented the assembly of the subunits. The indifference to Met or Ile at this position, as well as the tolerance for Leu which is not observed with any natural ribulosebisphosphate carboxylase, leads to the conclusion that either the 309Met/Ile substitution has no effect on the kinetic properties of the plant enzyme, despite the correlation apparent in previous studies, or the cyanobacterial enzyme is sufficiently different from the plant enzyme in other respects that the influence of residue 309 is masked.
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PMID:Effects of mutations at residue 309 of the large subunit of ribulosebisphosphate carboxylase from Synechococcus PCC 6301. 144 69

The petH gene encoding ferredoxin-NADP+ oxidoreductase (FNR) was cloned and sequenced from the cyanobacterium Synechococcus sp. PCC 7002. The deduced amino acid sequence of the FNR protein (402 amino acids) is approximately 110 amino acids longer at the N-terminus than FNR proteins which have been characterized from other cyanobacteria. N-Terminal amino acid sequence analysis of the protein confirms the assigned translational start codon and shows that the initiator methionine is not removed. Mapping of the petH transcript by primer extension demonstrates that transcription initiates 112-114 bp upstream from this translational initiation site. Analyses of the mature protein from whole-cell extracts by polyacrylamide gel electrophoresis and subsequent immunoblot analysis with anti-spinach FNR antibodies revealed two distinct forms of the mature protein; both had masses of approximately 45 kDa, corresponding to the predicted molecular mass deduced from the nucleotide sequence data. Analyses by Triton X-114 phase-partitioning indicate that one form of the protein is found exclusively in the cytosol and is hydrophilic when extracts are made at low ionic strength while the second form of the protein is hydrophobic and is tightly associated with the total membrane fraction. Hydroxylamine treatment converted a portion of the membrane-associated, hydrophobic form into a protein which then behaved like the hydrophilic form. These results suggest that a portion of the FNR pool may be acylated via an ester linkage to aid in attachment of the protein to the membranes. A computer database search revealed that the N-terminal extension of the FNR protein was 78% similar to the 9-kDa phycocyanin-associated linker protein CpcD, a structural component of the phycobilisomes. It is hypothesized that the N-terminal domain of FNR serves to localize the protein near the thylakoid membrane by docking FNR at the extremities of the peripheral rods of the phycobilisomes. Consistent with this notion, FNR is present in the phycobilisomes of Synechococcus sp. PCC 7002. Immunoblotting analyses of other cyanobacterial species showed that in all cases the major proteins recognized by the spinach FNR antibodies had masses of 42-55 kDa and were much larger than previously reported. Smaller cross-reactive species in the mass range 24-35 kDa appear to be proteolytic degradation products.
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PMID:Molecular characterization of ferredoxin-NADP+ oxidoreductase in cyanobacteria: cloning and sequence of the petH gene of Synechococcus sp. PCC 7002 and studies on the gene product. 155 97

We have investigated the biogenesis of the biotin-binding alpha-subunit of propionyl-CoA carboxylase (alpha PCC) in cultured Buffalo rat liver cells. Cells were pulse-labeled with [35S]methionine, and the newly synthesized alpha PCC was immunoprecipitated with anti-alpha PCC antibodies and analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Biotinylation of the alpha-subunit was detected by a mobility-shift assay following incubation with avidin. In the presence of biotin and the uncoupler, 2,4-dinitrophenol (DNP), alpha PCC precursor accumulated in the cytosol and was quantitatively biotinylated. Subsequent removal of the uncoupler in a "chase" protocol allowed the accumulated precursor to be translocated into mitochondria and cleaved to its mature form. When cells were grown in biotin-depleted medium and labeled in the presence of DNP, no biotinylation of the cytosolic precursor was observed. Nonetheless, the accumulated precursor was efficiently imported into mitochondria and cleaved to mature alpha PCC upon removal of the uncoupler. In parallel experiments in the absence of DNP, non-biotinylated mature alpha PCC accumulated in mitochondria; following addition of biotin, the apo-alpha PCC was converted rapidly to its holo-form. We conclude that both the alpha PCC precursor and its mature counterpart are competent for biotinylation and that biotinylated and nonbiotinylated alpha PCC precursor are competent for import by mitochondria.
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PMID:The precursor of the biotin-binding subunit of mammalian propionyl-CoA carboxylase can be translocated into mitochondria as apo- or holoprotein. 207 2

Two sequences with homology to a thioredoxin oligonucleotide probe were detected by Southern blot analysis of Anabaena sp. strain PCC 7120 genomic DNA. One of the sequences was shown to code for a protein with 37% amino acid identity to thioredoxins from Escherichia coli and Anabaena sp. strain PCC 7119. This is in contrast to the usual 50% homology observed among most procaryotic thioredoxins. One gene was identified in a library and was subcloned into a pUC vector and used to transform E. coli strains lacking functional thioredoxin. The Anabaena strain 7120 thioredoxin gene did not complement the trxA mutation in E. coli. Transformed cells were not able to use methionine sulfoxide as a methionine source or support replication of T7 bacteriophage or the filamentous viruses M13 and f1. Sequence analysis of a 720-base-pair TaqI fragment indicated an open reading frame of 115 amino acids. The Anabaena strain 7120 thioredoxin gene was expressed in E. coli, and the protein was purified by assaying for protein disulfide reductase activity, using insulin as a substrate. The Anabaena strain 7120 thioredoxin exhibited the properties of a conventional thioredoxin. It is a small heat-stable redox protein and an efficient protein disulfide reductase. It is not a substrate for E. coli thioredoxin reductase. Chemically reduced Anabaena strain 7120 thioredoxin was able to serve as reducing agent for both E. coli and Anabaena strain 7119 ribonucleotide reductases, although with less efficiency than the homologous counterparts. The Anabaena strain 7120 thioredoxin cross-reacted with polyclonal antibodies to Anabaena strain 7119 thioredoxin. However, this unusual thioredoxin was not detected in extracts of Anabaena strain 7120, and its physiological function is unknown.
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PMID:Isolation, sequence, and expression in Escherichia coli of an unusual thioredoxin gene from the cyanobacterium Anabaena sp. strain PCC 7120. 249 94

Sulphur is unique among the main elements of living cells in that it is covalently bound to biopolymers but does not occur in the biopolymer backbone. Indeed, most of the bacterial sulphur content resides in the methionine and cysteine side-chains of proteins. The growth yield of an organism under conditions of sulphur limitation could therefore be greatly enhanced by mutations that substitute Met and Cys in the organism's proteins for sulphur-free amino acids. Because the saving in sulphur would increase with such accumulating mutations, Met and Cys changes could be progressively selected. Abundant proteins should be the prime targets of such a selection. A few published observations give credence to this scenario. Sulphate permease, which is abundantly produced by sulphur-starved Salmonella typhimurium, lacks Met and Cys residues. Also, two species of marine purple bacteria synthesize more protein than can be expected from a limited sulphate supply. We now report that the cyanobacterium Calothrix sp. PCC 7601 (referred to here as Calothrix) encodes sulphur-depleted versions of its most abundant proteins--phycocyanin and its auxiliary polypeptides--which it specifically expresses under conditions of sulphur limitation. Although these proteins do not take part in the fixation of sulphur, their elevated synthesis affects the sulphur budget of cyanobacterial cells. Direct evidence is thus provided that the structure of macromolecules can be subject to metabolic optimization.
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PMID:Adaptive eradication of methionine and cysteine from cyanobacterial light-harvesting proteins. 250 52

Since the gas vesicle protein (GVP) is highly conserved among the different gas-vacuolate prokaryotes, a 29-mer oligonucleotide corresponding to a portion of the Anabaena flos-aquae GVP gene was synthesized and used to isolate the GVP structural gene from Calothrix PCC 7601 (= Fremyella diplosiphon). Gas vacuole production in this filamentous cyanobacterium is restricted to hormogonia which occur at a specific stage during the developmental cell cycle. The GVP gene (gvpA) was localized on a 709 bp HindIII-HincII fragment. Nucleotide sequence analysis revealed a 213 bp open reading frame whose deduced amino-acid sequence shows a very high homology with that of the Anabaena flos-aquae GVP. Assuming that the first methionine residue is proteolytically processed, the molecular mass of the Calothrix GVP is 7375 daltons. Sequences resembling the Escherichia coli consensus promoter were found upstream from the gvpA gene. The initiator codon of the gvpA gene is preceded by a polypurine sequence assumed to be the ribosome binding site. Southern hybridizations with a probe specific for the gvpA gene indicated that this gene is not plasmid-borne, and that another homologous gene is present in the Calothrix genome.
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PMID:Molecular cloning and nucleotide sequence of a developmentally regulated gene from the cyanobacterium Calothrix PCC 7601: a gas vesicle protein gene. 299 44

Two mixed oligonucleotide probes derived from conserved regions of the Synechocystis sp. strain PCC 6714 ferredoxin amino acid sequence were utilized to isolate an Anacystis nidulans R2 clone containing the ferredoxin I gene. Nucleotide sequence analysis revealed a 297-base-pair (bp) open reading frame with a deduced amino acid sequence having high homology to other cyanobacterial ferredoxins. Assuming proteolytic cleavage of the initial methionine residue, the molecular weight of the mature A. nidulans R2 ferredoxin was 10,370. The initial methionine residue was preceded by a probable ribosome-binding site sequence, AGGA. Northern hybridization analysis with the cloned ferredoxin gene indicated an RNA transcript of approximately 450 bp. S1 nuclease mapping localized the transcription start site to a position 64 bases upstream from the initial methionine residue. The nucleotide sequence 14 to 8 bp preceding the transcription start site resembled a typical Escherichia coli promoter, but the sequence in the -35 region did not. Southern hybridization detected only a single copy of the ferredoxin sequence in the A. nidulans R2 genome.
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PMID:Isolation and nucleotide sequence analysis of the ferredoxin I gene from the cyanobacterium Anacystis nidulans R2. 309 75

The nonheme, iron-sulfur protein ferredoxin is the terminal constituent of the photosynthetic electron transport chain. Under conditions of iron stress, many cyanobacteria and eucaryotic algae replace ferredoxin with the flavoprotein flavodoxin. The gene for flavodoxin was cloned from the cyanobacterium Anacystis nidulans R2 by using three mixed oligonucleotide probes derived from the partial Synechococcus sp. strain PCC 6301 amino acid sequence. Nucleotide sequence analysis revealed a 513-base-pair open reading frame with a deduced amino acid sequence having homology to other long-chain flavodoxins. Assuming proteolytic cleavage of the initial methionine residue, the molecular weight of the A. nidulans R2 flavodoxin is 18,609. Southern blot hybridization under conditions of reduced stringency detected only one copy of the flavodoxin sequence in the A. nidulans R2 genome. Northern (RNA) blot hybridization analyses by using cloned flavodoxin gene probes indicated that no transcripts are detectable under conditions of iron saturation. However, under iron-deficient growth conditions the flavodoxin gene appeared to be transcribed as part of a larger operon. The operon yielded at least three transcripts. The first was of approximately 1,100 bases (designated RNA 1) and terminated immediately upstream from the 5' end of the flavodoxin open reading frame. A second, less abundant transcript of approximately 1,900 bases (designated RNA 2) encoded all of RNA 1 as well as the flavodoxin polypeptide. Analysis indicated that both transcripts initiate in close proximity to each other. A third, minor transcript of approximately 1,100 bases (designated RNA 3) was detectable downstream of the flavodoxin gene sequence. Addition of iron-stressed A. nidulans R2 cells resulted in almost total loss of detectable mRNA transcripts within 60 min of the addition. The ferredoxin gene transcript has previously been characterized as a monocistronic message of approximately 430 bases (M. E. Reith, D. E. Laudenbach, and N. A. Straus, J. Bacteriol. 168: 1319-1324, 1986). Here we show that the ferredoxin message is detectable under all iron regimes tested is quantitatively unaffected by decreases in iron availability to the cells.
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PMID:Isolation, sequence analysis, and transcriptional studies of the flavodoxin gene from Anacystis nidulans R2. 312 86

Propionyl-CoA carboxylase [PCC, propanoyl-CoA:carbon-dioxide ligase (ADP-forming), EC 6.4.1.3] is a biotin-dependent enzyme involved in the degradation of branched-chain amino acids, fatty acids with odd-numbered chain lengths, and other metabolites. Inherited deficiency of the enzyme results in propionic acidemia, an autosomal recessive disorder showing considerable clinical heterogeneity. To facilitate investigations of enzyme structure and the nature of mutation in propionic acidemia, we have isolated cDNA clones coding for the alpha and beta polypeptides of human PCC. Sequences of two peptides derived from human liver PCC were used to specify oligonucleotide probes that were then used to screen a human fibroblast cDNA library. Two classes of cDNA clones were thus identified. One class contained the anticipated Ala-Met-Lys-Met sequence, corresponding to the biotin binding site found in several biotin-dependent carboxylases, thus confirming the alpha-chain assignment of these clones. In addition, they contained the deduced amino acid sequence of two of the sequenced peptides, including that of one of the oligonucleotide probes. The second class, coding for the beta polypeptide, contained the sequences of four peptides, including the sequence corresponding to the other oligonucleotide probe. Blot hybridization of RNA from normal human fibroblasts revealed a single mRNA species of 2.9 kilobases coding for the alpha polypeptide and two species of 4.5 and 2.0 kilobases detected for the beta polypeptide. By use of a panel of somatic mouse-human hybrids, the human gene encoding the alpha polypeptide (PCCA) was localized to chromosome 13, while the gene encoding the beta polypeptide (PCCB) was assigned to chromosome 3. Restriction fragment length polymorphisms were identified, at both PCCA and PCCB, that should prove useful to individual families at risk for propionic acidemia.
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PMID:Isolation of cDNA clones coding for the alpha and beta chains of human propionyl-CoA carboxylase: chromosomal assignments and DNA polymorphisms associated with PCCA and PCCB genes. 346 76

Propionicacidemia is a metabolic disorder resulting from a deficiency of propionyl-CoA carboxylase activity. The enzyme is composed of two polypeptides: a 72,000-dalton alpha chain which contains the biotin ligand and a 56,000-dalton beta chain. It has been suggested that the two major complementation groups in this disorder, pccA and pccBC (with subgroups pccB and pccC), correspond to the genes encoding these two chains. To correlate gene product with complementation groups, 15 mutant and four normal human fibroblast strains were analyzed by [35S]methionine and [3H]biotin labeling. Immunoprecipitation and gel electrophoresis of the polypeptides revealed that alpha chains are synthesized by mutants of pccBC and both subgroups but not in four out of five pccA mutants. On the other hand, beta chains were detected only in pccB mutants. We suggest that pccA encodes the alpha chain of PCC while pccBC encodes the beta chain, and furthermore predict that the beta chain is unstable in the absence of the alpha chain.
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PMID:Assignment of the alpha and beta chains of human propionyl-CoA carboxylase to genetic complementation groups. 661 5

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