EC:1.12.7.2 - FACTA Search

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Query: EC:1.12.7.2 (hydrogenase)
3,522 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A soluble low-potential cytochrome c549 has been purified in milligram quantities from the cyanobacterium Synechocystis sp. PCC 6803. The protein exhibits an acid isoelectric point of 3.9, a molecular mass of 15.8 kDa, and a midpoint redox potential value of -250 mV at pH 7.0 EPR and 1H NMR studies suggest a low-spin heme iron with bis-histidine coordination at the fifth and sixth positions. EDTA-photoreduced 5-deazariboflavin has been used as the electron-donating system to study, by laser flash absorption spectroscopy, the electron transfer reactions between Synechocystis cytochrome c549 and redox proteins involved in the cyclic electron flow around photosystem I. The second-order rate constants (k2) obtained for ferredoxin (or flavodoxin) oxidation by Synechocystis cytochrome c549 are rather low (ca. 10(5) M-1 s-1), thus suggesting that this low-potential heme-protein does not operate as the primary electron carrier for either transferring electrons to the cytochrome b6f complex in cyclic photophosphorylation or to hydrogenase during anaerobic metabolism. The k2 values for plastocyanin reduction by cytochrome c549 are about 100 times higher (ca. 10(7) M-1 s-1), but it remains to be determined whether or not this reaction actually reflects a physiological process.
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PMID:Purification and physicochemical properties of the low-potential cytochrome C549 from the cyanobacterium Synechocystis sp. PCC 6803. 772 71

In order to confirm the amino acid sequence predicted from the nucleotide sequence of cDNA and also to elucidate the intracellular localization and molecular evolution, human liver alanine-glyoxylate transaminase 1 (AGT1) was purified and subjected to partial amino acid sequence determination, with special attention to posttranslational modification. The enzyme was purified to homogeneity from the 10,000 x g supernatant of human liver homogenate. The purified enzyme showed only a single protein band at about 43 kDa on SDS-PAGE, indicating that it is a homodimer of two identical subunits, because the native enzyme has a molecular mass of about 80 kDa. Both the amino- and carboxyl-terminal peptides of the enzyme were isolated from a cyanogen bromide digest of the S-carboxyl-methylated protein and subjected to amino acid sequence determination. The alpha-amino group of the amino-terminal peptide was shown to be blocked by an acetyl group. The carboxyl-terminal sequence contained a putative N-glycosylation sequence (-Asn-Ala-Thr-), the only one present in the whole molecule, but this sequence was normally determined, indicating that the enzyme is not N-glycosylated. Purdue et al. [J. Cell Biol. 111, 2341-2351 (1990)] have reported that Pro-11, Gly-170, and Ile-340 in normal human AGT1 were replaced by Leu, Arg, and Met, respectively, in a patient with primary hyperoxaluria type 1. We confirmed that residue-11 was Pro. Both the amino- and carboxyl-terminal sequences of the enzyme showed extensive similarity with those of rat liver mitochondrial serine-pyruvate aminotransferase and the small chain of hydrogenase from a thermophilic unicellular cyanobacterium, Synechococcus PCC 6716.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Purification and amino- and carboxyl-terminal amino acid sequences of alanine-glyoxylate transaminase 1 from human liver. 779 68

Programmed DNA rearrangements that occur during cellular differentiation are uncommon and have been described in only two prokaryotic organisms. Here, we identify the developmentally regulated rearrangement of a hydrogenase gene in heterocysts of the cyanobacterium Anabaena sp. strain PCC 7120. Heterocysts are terminally differentiated cells specialized for nitrogen fixation. Late during heterocyst differentiation, a 10.5-kb DNA element is excised from within the hupL gene by site-specific recombination between 16-bp direct repeats that flank the element. The predicted HupL polypeptide is homologous to the large subunit of [NiFe] uptake hydrogenases. hupL is expressed similarly to the nitrogen-fixation genes; hupL message was detected only during the late stages of heterocyst development. An open reading frame, named xisC, identified near one end of the hupL DNA element is presumed to encode the element's site-specific recombinase. The predicted XisC polypeptide is homologous with the Anabaena sp. strain PCC 7120 site-specific recombinase XisA. Neither XisC nor XisA shows sequence similarity to other proteins, suggesting that they represent a different class of site-specific recombinase.
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PMID:Programmed DNA rearrangement of a cyanobacterial hupL gene in heterocysts. 784 53

The sequence of a NAD(P)-reducing hydrogenase operon of Synechocystis sp. PCC 6803 containing genes for a small and a large hydrogenase subunit and six additional ORFs was determined. Until now only 11 of the 14 polypeptides of the NADH-dehydrogenase of E. coli were found in Synechocystis. By sequence homologies we suggest that the missing subunits of the peripheral part of the dehydrogenase, containing most of the FeS-clusters, are encoded by three ORFs of this operon. This hypothesis is discussed in relation to the NAD(P)-reducing hydrogenase of Synechocystis.
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PMID:Sequence analysis of an operon of a NAD(P)-reducing nickel hydrogenase from the cyanobacterium Synechocystis sp. PCC 6803 gives additional evidence for direct coupling of the enzyme to NAD(P)H-dehydrogenase (complex I). 898 Jun 40

Structural genes encoding an uptake hydrogenase of Nostoc sp. strain PCC 73102 were isolated. From partial libraries of genomic DNA, two clones (pNfo01 and pNfo02) were selected and sequenced, revealing the complete sequence of both a hupS (960 bases) and a hupL (1,593 bases) homologue in Nostoc sp. strain PCC 73102. A comparison between the deduced amino acid sequences of HupS and HupL of Nostoc sp. strain PCC 73102 and Anabaena sp. strain PCC 7120 showed that the HupS proteins are 89% identical and the HupL proteins are 91% identical. However, the noncoding region between the genes in Nostoc sp. strain PCC 73102 (192 bases) is longer than that of Anabaena sp. strain PCC 7120 and of many other microorganisms. Southern hybridizations using DNA from both N2-fixing and non-N2-fixing cells of Nostoc sp. strain PCC 73102 and different probes from within hupL clearly demonstrated that, in contrast to Anabaena sp. strain PCC 7120, there is no rearrangement within hupL of Nostoc sp. strain PCC 73102. Indeed, 6 nucleotides out of 16 within the potential recombination site are different from those of Anabaena sp. strain PCC 7120. Furthermore, we have recently published evidence demonstrating the absence of the bidirectional/reversible hydrogenase in Nostoc sp. strain PCC 73102. The present knowledge, in combination with the unique characteristics, makes Nostoc sp. strain PCC 73102 an interesting candidate for the study of deletion mutants lacking the uptake-type enzyme.
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PMID:Hydrogen uptake in Nostoc sp. strain PCC 73102. Cloning and characterization of a hupSL homologue. 953 26

The bidirectional, NAD+-dependent hydrogenase from cyanobacteria is encoded by the structural genes hoxFUYH, which have been found to be clustered, though interspersed with different open reading frames (ORFs), in the heterocystous, N2-fixing Anabaena variabilis and in the unicellular Synechocystis PCC 6803. In another unicellular, non N2-fixing cyanobacterium, Anacystis nidulans, hoxF has now been identified as being separated by at least 16 kb from the residual structural genes hoxUYH. An ORF (termed hoxE gene) is located immediately upstream of hoxF in A. nidulans and in Synechocystis. Its deduced amino acid sequence shows similarities to the NuoE subunit of NADH dehydrogenase I of E. coli, to the homologous subunit of respiratory complex I in mitochondria, and also to the first 104 amino acids of HoxF in A. nidulans and Synechocystis. The diversity in the arrangement of hydrogenase genes in cyanobacteria is puzzling. The subunits HoxE, HoxF, and HoxU of the diaphorase part of the bidirectional hydrogenase have been discussed to be shared both by respiratory complex I and bidirectional hydrogenase in cyanobacteria. Different hoxU mutants were obtained by inserting a lacZKmR cassette into the gene both in A. nidulans and Anacystis PCC 7942. Such mutants showed reduced H2-evolution activities catalyzed by the bidirectional hydrogenase, but had nonimpaired respiratory O2-uptake. A common link between respiratory complex I and the diaphorase part of the bidirectional hydrogenase in cyanobacteria may still exist, but this hypothesis could not be verified in the present study by analyzing defined mutants impaired in one of the diaphorase genes.
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PMID:Unusual gene arrangement of the bidirectional hydrogenase and functional analysis of its diaphorase subunit HoxU in respiration of the unicellular cyanobacterium anacystis nidulans 954 59

Filamentous, heterocystous cyanobacteria may contain both an uptake hydrogenase (encoded by hupSL) and a bidirectional enzyme (encoded by hoxFUYH). The present study identifies three strains (Anabaena variabilis, Nostoc muscorum and Nostoc sp. strain PCC 73102) with a contiguous hupL in both vegetative cells and heterocysts. The two Nostoc strains differ in either containing a bidirectional enzyme (N. muscorum) or lacking this enzyme (N. PCC 73102). Transcriptional studies, using reverse transcriptase-polymerase chain reaction, demonstrated an induction of a hupL transcript approximately 24 h after a shift from non-nitrogen-fixing to nitrogen-fixing conditions (in parallel with the induction of an in vivo light-dependent H2-uptake activity) in N. muscorum. However, the level of hoxH transcripts did not change significantly during the induction of the H2-uptake activity.
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PMID:Transcriptional regulation of Nostoc uptake hydrogenase. 991 54

A 10-kb DNA region of the cyanobacterium Anabaena variabilis ATCC 29413 containing the structural genes of the uptake hydrogenase (hupSL) was cloned and sequenced. In contrast to the hupL gene of Anabaena sp. strain PCC 7120, which is interrupted by a 10.5-kb DNA fragment in vegetative cells, there is no programmed rearrangement within the hupL gene during the heterocyst differentiation of A. variabilis. The hupSL genes were transcribed as a 2.7-kb operon and were induced only under nitrogen-fixing conditions, as shown by Northern blot experiments and reverse transcriptase PCR. Primer extension experiments with a fluorescence-labeled oligonucleotide primer confirmed these results and identified the 5' start of the mRNA transcript 103 bp upstream of the ATG initiation codon. A consensus sequence in the promoter that is recognized by the fumarate nitrate reductase regulator (Fnr) could be detected. The hupSL operon in A. variabilis was interrupted by an interposon deletion (mutant strain AVM13). Under N(2)-fixing conditions, the mutant strain exhibited significantly increased rates in H(2) accumulation and produced three times more hydrogen than the wild type. These results indicate that the uptake hydrogenase is catalytically active in the wild type and that the enzyme reoxidizes the H(2) developed by the nitrogenase. The Nif phenotype of the mutant strain showed a slight decrease of acetylene reduction compared to that of the wild type.
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PMID:Transcriptional and mutational analysis of the uptake hydrogenase of the filamentous cyanobacterium Anabaena variabilis ATCC 29413. 1069 68

The activity of the bidirectional hydrogenase of the cyanobacterium Synechocystis sp. PCC 6803 was found not to be regulated in parallel to respiration but to photosynthesis. A mutant with a deletion in the large hydrogenase subunit gene (hoxH), which contains the active site, was impaired in the oxidation of photosystem I (PSI) when illuminated with light, which excites either PSI alone or both photosystems. The fluorescence of photosystem II (PSII) of this mutant was higher than that of wild-type cells. The transcript level of the photosynthetic genes psbA, psaA and petB was found to be different in the hydrogenase-free mutant cells compared to wild-type cells, which indicates that the hydrogenase has an effect on the regulation of these genes. Collectively, these results suggest that the bidirectional hydrogenase functions as a valve for low-potential electrons generated during the light reaction of photosynthesis, thus preventing a slowing down of electron transport. This conclusion is supported by growth curves demonstrating that the mutant cells need more time to adapt to changing light intensities. Investigations of the wild-type and deltahoxH strains strongly suggest that Synechocystis contains only the bidirectional hydrogenase, which seems to be essentially insensitive to oxygen.
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PMID:The bidirectional hydrogenase of Synechocystis sp. PCC 6803 works as an electron valve during photosynthesis. 1089 11

The heterocystous cyanobacterium Nostoc sp. PCC 73102 possesses an uptake hydrogenase encoded by hupS and hupL. The genes are transcribed in cells grown under N2-fixing but not under non-N2-fixing conditions. We characterised the transcription of hupS and hupL in further detail. A transcription start site was located at a position 259 bp upstream from the hupS translation start. As shown by RT-PCR, hupS and hupL constitute a single transcript in Nostoc sp. PCC 73102. The possible function of short, tandemly repeated repetitive sequences between hupS and hupL, enabling a folding of the entire intergenic region into a hairpin, is discussed.
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PMID:hupS and hupL constitute a transcription unit in the cyanobacterium Nostoc sp. PCC 73102. 1098 53

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