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

Two mutant strains of Escherichia coli, AK11 and AK22, express normal levels of hydrogenase activity, assayed by deuterium exchange, when grown on glucose or complex medium but cannot reduce methyl viologen by H2 nor grow on fumarate plus H2. The mutant strains also lack formate hydrogenlyase and formate dehydrogenase activities. The mutation in these strains was located near minute 17 of the genome map and a single mutation was shown to be responsible for loss of both hydrogen uptake and formate-related activities. Membrane vesicles and solubilized membranes of strains AK11 and AK22 were capable of methyl viologen reduction by H2 and had the normal complement of hydrogenase isoenzymes 1 and 2. Intact cells of the mutant strains could reduce fumarate by H2 but could not grow under these conditions. A plasmid, pAK11, was isolated, as well as smaller plasmids derived from it, which restored the hydrogen uptake activities in the two mutant strains, the smallest active DNA fragment being 1.4 kb. The formate activities were partially restored by some of the plasmids. The plasmids which restored hydrogen uptake activities led to synthesis of a polypeptide of subunit molecular mass 30 kDa.
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PMID:Isolation of a gene required for growth of Escherichia coli on fumarate and H2. 307 54

The cytoplasmic, NAD-linked hydrogenase of Alcaligenes eutrophus H16 consists of four non-identical subunits. From the mutant strain HF14, defective in this enzyme, a protein was isolated that reacted with specific antibodies raised against the wild-type hydrogenase; the reaction type was of partial identity. The same protein was also tested with specific antibodies raised against each of the four denatured subunits of the wild-type hydrogenase and was found to be completely identical with the second largest subunit; it reacted weakly with the antibody against the largest subunit and not at all with the antibody against the small subunits. In SDS-polyacrylamide gel electrophoresis the protein of the mutant migrated as a single polypeptide and corresponded to the second largest subunit of soluble hydrogenase with Mr = 56,000. The mutant enzyme strongly differed from the wild-type hydrogenase in its binding behaviour to chromatographic gels. It had pronounced hydrophobic properties and bound strongly to phenyl-Sepharose; it had high affinity to triazin dye gels. Enzymatically the polypeptide was totally inactive with NAD as electron acceptor, but showed weak residual activities with methylene blue, ferricyanide and cytochrome c. The protein also contained nickel; however, because of the instability of this polypeptide the amount varied between 0.2-1.4 nickel per enzyme molecule. As shown by ESR studies, the iron is organized in a [4Fe-4S] cluster but is partially present also in the 3Fe-form. No nickel signal could be detected. The role of the polypeptide subunit for hydrogen activation in the intact hydrogenase is discussed.
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PMID:Characterization of a native subunit of the NAD-linked hydrogenase isolated from a mutant of Alcaligenes eutrophus H16. 308 7

The soluble NAD-linked hydrogenase of Alcaligenes eutrophus H16 is a tetramer consisting of 4 non-identical subunits with molecular weights of 63,000, 56,000, 30,000 and 26,000. Conditions have been elaborated to separate and isolate each of these subunits as a single polypeptide by a preparative scale of polyacrylamide gel electrophoresis in the presence of sodium dodecylsulfate (SDS). Against each of the 4 subunits, polyclonal antibodies were produced. From the crude sera isolated from rabbits, the antibodies (IgG fractions) were purified by Protein A-Sepharose chromatography. By the double immunodiffusion method, comparison of the 4 types of subunits revealed that they are in fact different polypeptides. Subunit 1 (Mr = 63,000) and subunit 2 (Mr = 56,000) only reacted with their own specific antibodies and showed no cross-reaction whatsoever with the antibodies raised against the other subunits. The only immunological relationship among the different subunits was observed with subunit 3 (Mr = 30,000) and subunit 4 (Mr = 26,000); the type of cross-reaction indicated that they are partially identical. A. eutrophus H16 contains, in addition to the soluble hydrogenase, a membrane-bound hydrogenase which is a dimer composed of 2 subunits with Mr of 61,000 and 30,000. Whereas the 2 native enzymes did not show any immunological cross-reaction with the respective antibodies, it was demonstrated by double immunofluorescence labeling on nitrocellulose filters that the larger subunit of the membrane-bound hydrogenase cross-reacted significantly with the antibodies raised against subunit 2 of the soluble hydrogenase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Isolation and immunological characterization of the four non-identical subunits of the soluble NAD-linked hydrogenase from Alcaligenes eutrophus H16. 308 14

The structural genes for the large and small subunits of Desulfovibrio gigas periplasmic [NiFe]hydrogenase were identified and isolated by immunological and oligonucleotide screening. The gene for the small subunit codes for a 266-amino-acid, 28,724-dalton polypeptide which is separated by 63 nucleotides from the large subunit gene that codes for a 560-amino-acid, 61,707-dalton polypeptide. A putative signal peptide precedes the small subunit coding region, which may direct transport of the enzyme into the periplasmic compartment. Comparison of the amino acid sequence of this enzyme with those of two other classes of hydrogenase found in Desulfovibrio revealed that the D. gigas periplasmic hydrogenase has some homologies to the periplasmic [NiFeSe]hydrogenase of D. baculatus but none to the periplasmic [Fe]hydrogenase of D. vulgaris. The genes for the large and small subunits of the D. gigas hydrogenase hybridize strongly to genomic DNAs from several species of Desulfovibrio, indicating molecular similarity of the [NiFe]hydrogenase among sulfate reducers.
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PMID:Cloning, characterization, and sequencing of the genes encoding the large and small subunits of the periplasmic [NiFe]hydrogenase of Desulfovibrio gigas. 332 43

A mutant strain of Escherichia coli, strain AK23, is devoid of hydrogenase activity when grown anaerobically on glucose and cannot grow on H2 plus fumarate. From E. coli chromosomal DNA library, a plasmid, pAK23, was isolated which restored hydrogenase activity in this strain. Two smaller plasmids, pAK23C and pAK23S, containing different parts of the insert DNA fragment of plasmid pAK23, were isolated. The former plasmid restored activity in strain AK23 while the latter did not. The smallest active DNA fragment in plasmid pAK23C was 0.9 kb. This gene is designated hydE. Plasmids pAK23 and pAK23S restored activity in another hydrogenase-negative strain, SE-3-1 (hydB), while plasmid pAK23C did not, suggesting that plasmid pAK23 contains two genes required for hydrogenase expression. Strain AK23 was also devoid of formate hydrogenlyase and formate dehydrogenase activities and these activities were restored by some of the plasmids. Hydrogenase and formate-related activities in strain AK23 were restored by growth of cells in a high concentration of nickel. Plasmid pAK23C led to synthesis of a polypeptide of subunit molecular mass 36 kDa and plasmid pAK23S led to synthesis of polypeptides of subunit molecular masses 30 and 41 kDa.
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PMID:Isolation of genes required for hydrogenase synthesis in Escherichia coli. 333 83

Two polypeptides present in aerobic and anaerobic cultures of Escherichia coli HB101 were shown to cross-react with antibodies to the 30- and 60-kilodalton (kDa) subunits of the uptake hydrogenase of Rhizobium japonicum. The cross-reactive polypeptides in a series of different E. coli strains are of Mrs ca. 60,000 and 30,000, and both polypeptides are present in proportion to measurable hydrogen uptake (Hup) activity (r = 0.95). The 60-kDa polypeptide from E. coli HB101 comigrated on native gels with detectable Hup activity. The exact role of the 30-kDa polypeptide in E. coli is unclear. E. coli MBM7061, a natural Hup- variant, grown anaerobically or aerobically lacked detectable Hup activity and failed to cross-react with the antisera against the hydrogenase from R. japonicum. Anaerobically cultured E. coli MBM7061, however, did express formate hydrogenlyase activity, indicating that the hydrogenases involved in the oxygen-dependent activation of hydrogen and the formate-dependent evolution of hydrogen are biochemically distinct.
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PMID:Immunological homology between the membrane-bound uptake hydrogenases of Rhizobium japonicum and Escherichia coli. 351 Oct 36

Hydrogenase isoenzyme 1 from the membrane fraction of anaerobically grown Escherichia coli has been purified to near homogeneity. The preparation involved dispersion of the membrane fraction with deoxycholate followed by ammonium sulphate precipitation, ion-exchange, hydroxyapatite and gel filtration chromatography steps. The enzyme was assayed by quantification of the H2:benzyl viologen oxidoreductase activity immunoprecipitated by a non-inhibitory antiserum specific for the enzyme. The enzyme constituted about 8% of the hydrogenase activity found in the detergent-dispersed membranes, the remainder being attributable to hydrogenase isoenzyme 2. Isoenzyme 1 was purified 130-fold and the specific activity of the final preparation was 10.6 mumol benzyl viologen reduced min-1 (mg protein)-1 (H2:benzyl viologen oxidoreductase). The final preparation contained polypeptides of apparent Mr 64,000, 31,000 and 29,000. Antibodies were raised both to the final preparation and to immunoprecipitation arcs containing hydrogenase isoenzyme 1, excised from crossed immunoelectrophoresis plates. The former cross-reacted with all three polypeptides in the enzyme preparation but the latter recognised only the Mr-64,000 polypeptide. Immunological analysis revealed that the polypeptides of apparent Mr 31,000 and 29,000 are fragments of a single polypeptide of Mr 35,000 which is present in the detergent-dispersed membranes. The fragmentation of the Mr-35,000 polypeptide during the preparation correlates with a change in the electrophoretic mobility of the enzyme. A similar electrophoretic mobility change was observed, accompanied by cleavage of the Mr-35,000 polypeptide to one of 32,000 when the enzyme was analysed after exposure of detergent-dispersed membranes to trypsin. The enzyme in the detergent-dispersed membranes consists minimally of two subunits of Mr 64,000 and two subunits of Mr 35,000. It contained 12.2 mol Fe and 9.1 mol acid-labile S2-/200,000 g enzyme. The enzyme, purified from bacteria grown in the presence of 63Ni, was found to contain 0.64 (+/- 0.20) mol Ni/200,000 g enzyme. A constant ratio of 63Ni immunoprecipitated to hydrogenase isoenzyme 1 activity immunoprecipitated by antiserum specific for the enzyme was observed during the preparation, consistent with Ni being part of the enzyme. The enzyme has a low Km for H2 (2.0 microM) in the H2:benzyl viologen oxidoreductase assay. It catalyses H2 evolution employing reduced methyl viologen as electron donor. It is inhibited reversibly by CO and irreversibly by N-bromosuccinimide.
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PMID:Purification and properties of membrane-bound hydrogenase isoenzyme 1 from anaerobically grown Escherichia coli K12. 351 89

An active tryptic fragment of membrane-bound hydrogenase isoenzyme 2 from anaerobically grown Escherichia coli has been purified. The soluble enzyme derivative was released from the membrane fraction by trypsin cleavage. The purification procedure involved ion-exchange, hydroxyapatite and gel permeation chromatography. The enzyme derivative was purified 100-fold from the membrane fraction and the specific activity of the final preparation was 320 mumol benzyl viologen reduced min-1 mg protein-1 (H2:benzyl viologen oxidoreductase). The native enzyme derivative had an Mr of 180,000 and was composed of equimolar amounts of polypeptides of Mr 61,000 and 30,000. It possessed 12.5 mol Fe, 12.8 mol acid-labile S2- and 3.1 mol Ni/180,000 g enzyme. Antibodies were raised to the purified preparation which cross-reacted with hydrogenase isoenzyme 2 but not with isoenzyme 1 in detergent-dispersed preparations. Western immunoblot analysis revealed that isoenzyme 2 which had not been exposed to trypsin contained cross-reacting polypeptides of Mr 61,000 and 35,000. Trypsin treatment of the membrane-bound enzyme to form the soluble derivative of isoenzyme 2, therefore, cleaves a polypeptide of Mr 35,000 to produce the 30,000-Mr fragment. Trypsin treatment of the detergent-dispersed isoenzyme 2 produces the same fragmentation of the enzyme. Neither of the subunits of the enzyme revealed any immunological identity with those of hydrogenase isoenzyme 1.
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PMID:Isolation and characterisation of a soluble active fragment of hydrogenase isoenzyme 2 from the membranes of anaerobically grown Escherichia coli. 351 90

The gene encoding the hydrogenase from Desulfovibrio vulgaris (Hildenborough) has been cloned in Escherichia coli. D. vulgaris DNA was digested with the restriction endonucleases EcoRI and SalI and ligated into the vector pUC9 [Vieira, J. & Messing, J. (1982) Gene 19, 259-268], which had been cut with these same enzymes. Approximately 9000 recombinant clones were obtained by transformation of E. coli JM 101 followed by growth on rich plates with ampicillin for selection and isopropyl-beta-D-thiogalactoside and 5-bromo-4-chloro-3-indolyl-beta-D-galactopyranoside present for detection of recombinants. The recombinant clones were then screened for production of immunoreactive proteins with rabbit antisera against purified hydrogenase and 125I-labelled protein A. 28 positive clones were found in this initial screening. These were further tested in an immunocompetition experiment, which showed that the protein product from one clone behaved identically to purified hydrogenase. The plasmid pHV15 isolated from this clone has a 4.7 X 10(3)-base-pair SalI/EcoRI insert. Cells of E. coli JM 101 transformed with pHV 15 produce a hydrogenase polypeptide of molecular mass 46 kDa as detected by Western blotting. The mass, as well as the Cleveland mapping pattern of the polypeptide produced by E. coli, are identical with those of the hydrogenase isolated from D. vulgaris (Hildenborough). Southern blotting of restriction-enzyme-digested D. vulgaris DNA, using the nick-translated 4.7 X 10(3)-base-pair SalI/EcoRI fragment as a probe, indicates the presence of a single gene with an internal PstI site. The NH2-terminal sequence of the hydrogenase was determined to be: (sequence in text). This information should allow an unambiguous identification of the hydrogenase gene.
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PMID:Cloning of the gene encoding the hydrogenase from Desulfovibrio vulgaris (Hildenborough) and determination of the NH2-terminal sequence. 388 20

The nucleotide sequence of the 4.7-kb SalI/EcoRI insert of plasmid pHV 15 containing the hydrogenase gene from Desulfovibrio vulgaris (Hildenborough) has been determined with the dideoxy chain-termination method. The structural gene for hydrogenase encodes a protein product of molecular mass 45820 Da. The NH2-terminal sequence of the enzyme deduced from the nucleic acid sequence corresponds exactly to the amino acid sequence determined by Edman degradation. The nucleic acid sequence indicates that a N-formylmethionine residue precedes the NH2-terminal amino acid Ser-1. There is no evidence for a leader sequence. The NH2-terminal part of the hydrogenase shows homology to the bacterial [8Fe-8S] ferredoxins. The sequence Cys-Ile-Xaa-Cys-Xaa-Xaa-Cys-Xaa-Xaa-Xaa-Cys-Pro-Xaa-Xaa-Ala-(Ile) occurs twice both in the hydrogenase and in [8Fe-8S] ferredoxins, where the Cys residues have been shown to coordinate two [4Fe-4S] clusters [Adman, E. T., Sieker, L. C. and Jensen, L. H. (1973) J. Biol. Chem. 248, 3987-3996]. These results, therefore, suggest that two electron-transferring ferredoxin-like [4Fe-4S] clusters are located in the NH2-terminal segment of the hydrogenase molecule. There are ten more Cys residues but it is not clear which four of these could participate in the formation of the third cluster, which is thought to be the hydrogen binding centre. Another gene, encoding a protein of molecular mass 13493 Da, was found immediately downstream from the gene for the 46-kDa hydrogenase. The nucleic acid sequence suggests that the hydrogenase and the 13.5-kDa protein belong to a single operon and are coordinately expressed. Since dodecylsulfate gel electrophoresis of purified hydrogenase indicates the presence of a 13.5-kDa polypeptide in addition to the 46-kDa component, it is proposed that the hydrogenase from D. vulgaris (Hildenborough) is a two-subunit enzyme.
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PMID:Nucleotide sequence of the gene encoding the hydrogenase from Desulfovibrio vulgaris (Hildenborough). 388 21


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