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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 0.6-kb fragment of DNA involved in intracellular Ni metabolism was isolated and cloned from a cosmid containing 23.2 kb of
hydrogenase
-related genes of Bradyrhizobium japonicum. This locus is located 8.3 kb upstream of the
hydrogenase
structural genes. The
hydrogenase
activity of a mutant with a gene-directed mutation at this locus (strain JHK7) showed dependency on nickel provided during
hydrogenase
derepression. The
hydrogenase
activity was only 20% of that in the wild-type strain, JH, at a concentration of 0.5 microM
NiCl2
. The
hydrogenase
activity in JH reached its maximum at 3 microM
NiCl2
, whereas the mutant (JHK7) reached wild-type levels of
hydrogenase
activity when derepressed in 50 microM
NiCl2
. Studies with the hup-lacZ transcriptional fusion plasmid pSY7 in JHK7 showed that the mutant JHK7 expressed less promoter activity under low-nickel conditions than did strain JH. The mutant accumulated less nickel during a 45-h
hydrogenase
derepression period than did the wild type. However, both JHK7 and the JH wild-type strain had the same short-term Ni transport rates, and the KmS for Ni of both strains were about 62 microM. When incubated under non-
hydrogenase
-derepression conditions, the mutant accumulated Ni at the same rate as strain JH. However, this stored source of nickel was unable to restore
hydrogenase
expression ability of the mutant to wild-type levels during derepression without nickel. The results indicate that the locus identified in B. japonicum is not involved in nickel-specific transport; indeed, it was not at all homologous to the "nickel transporter" hoxN gene of Alcaligenes eutrophus.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Identification of a locus within the hydrogenase gene cluster involved in intracellular nickel metabolism in Bradyrhizobium japonicum. 178 25
Hydrogenase-derepressed (chemolithotrophic growth conditions) and heterotrophically grown cultures of Bradyrhizobium japonicum accumulated nickel about equally over a 3-h period. Both types of cultures accumulated nickel primarily in a form that was not exchangeable with
NiCl2
, and they accumulated much more Ni than would be needed for the Ni-containing
hydrogenase
. The nickel accumulated by heterotrophically incubated cultures could later be mobilized to allow active
hydrogenase
synthesis during derepression in the absence of nickel, while cells both grown and derepressed without nickel had low
hydrogenase
activities. The level of activity in cells grown with Ni and then derepressed without nickel was about the same as that in cultures derepressed in the presence of nickel. The Ni accumulated by heterotrophically grown cultures was associated principally with soluble proteins rather than particulate material, and this Ni was not lost upon dialyzing an extract containing the soluble proteins against either Ni-containing or EDTA-containing buffer. However, this Ni was lost upon pronase or low pH treatments. The soluble Ni-binding proteins were partially purified by gel filtration and DEAE chromatography. They were not antigenically related to
hydrogenase
peptides. Much of the 63Ni eluted as a single peak of 48 kilodaltons. Experiments involving immunoprecipitation of 63Ni-containing
hydrogenase
suggested that the stored source of Ni in heterotrophic cultures that could later be mobilized into
hydrogenase
resided in the nonexchangeable Ni-containing fraction rather than in loosely bound or ionic forms.
...
PMID:Nickel accumulation and storage in Bradyrhizobium japonicum. 220 Mar 41
Systematic screening of 6.10(4) independent Tn5 insertion mutants of Escherichia coli yielded one new
hydrogenase
locus, hydF, mapping near 64.8 min, i.e., close to the hydL locus (K. Stoker, L.F. Oltmann, and A.H. Stouthamer, J. Bacteriol. 170:1220-1226, 1988). It regulated specifically the activity of the
hydrogenase
isoenzymes, formate dehydrogenase and lyase activities being unaffected. In hydF mutants,
hydrogenase
1 and 2 activities were reduced to 1% of the parental level, whereas the electrophoretically labile part was present at about 20% of the parental level. H2 uptake was also reduced to about 20%, which suggested a relationship between these two activities. Experiments with 63Ni indicated that
hydrogenase
isoenzymes 1 and 2 might be present in these strains but in an inactive form. The hydF product might therefore be a posttranslational activator. At least three other mutant classes were isolated. Additional data were obtained on coisolated, nickel-restorable hydC mutants (L.F. Wu and M.-A. Mandrand-Berthelot, Biochimie 68:167-179, 1986). These strains were found to suffer a general impairment of nickel uptake. Restoration of
hydrogenase
activities was specific for
NiCl2
and inhibited by chloramphenicol, which indicated an effect either on the transcription of
hydrogenase
(-associated) genes or by cotranslational incorporation in nickel-containing enzymes (e.g., in hydrogenases). The hydC mutation could not be complemented in trans, evidence that the hydC product is not a nickel transport protein but rather a cis-acting regulatory gene. Parent HB101, hydF mutants, and the other mutants were further analyzed by monitoring the induction of
hydrogenase
and
hydrogenase
-associated activities upon transition of cells from aerobic to anaerobic growth. These experiments also revealed a correlation between the early-induced H2 uptake route and labile
hydrogenase
activity. The formate hydrogenlyase induction patterns followed quite well the slower induction patterns of hydrogenases 1 and 2.
...
PMID:Randomly induced Escherichia coli K-12 Tn5 insertion mutants defective in hydrogenase activity. 253 83
An inactive, Ni-deficient form of carbon monoxide (CO) dehydrogenase [carbon-monoxide:(acceptor) oxidoreductase; EC 1.2.99.2], designated apo-CO dehydrogenase, accumulated in Rhodospirillum rubrum when cells were grown in the absence of Ni and treated with CO. In vivo, both CO dehydrogenase activity and
hydrogenase
activity increased several hundred fold upon addition of 2 microM
NiCl2
. Apo-CO dehydrogenase was purified to homogeneity and differed from holo-CO dehydrogenase only in its activity and Ni content, containing less than 0.2 mol of Ni per mol of protein, and a specific activity of 35 mumol of CO per min per mg. Optimal in vitro activation of purified apo-CO dehydrogenase resulted in an enzyme with a specific activity of 2640 mumol of CO per min per mg. No additional enzymes or low molecular weight cofactors were required for activation. Apo-CO dehydrogenase was not activated by MgCl2, MnCl2, CuCl2, ZnCl2, CoCl2, or Na2MoO4. 63Ni was incorporated into apo-CO dehydrogenase during activation. The electron paramagnetic resonance (EPR) spectra of dithionite-reduced apo- and holo-enzyme were identical, indicating that, in the reduced state, the Fe-S centers observed by EPR are unchanged in the apo-enzyme.
...
PMID:Nickel-deficient carbon monoxide dehydrogenase from Rhodospirillum rubrum: in vivo and in vitro activation by exogenous nickel. 282 76
Anaerobic growth in the presence of 0.6 mM
NiCl2
was able to restore
hydrogenase
and benzyl-viologen-linked formate dehydrogenase activities to a mutant (FD12), which is normally defective in these activities. This mutant carries a mutation located near minute 58 in the genome. Hydrogenase isoenzyme I and II activities were restored along with the
hydrogenase
activity that forms part of the formate hydrogen lyase system. A plasmid (pRW1) was constructed, containing a 4.8 kb chromosomal DNA insert, which was able to complement the lesion in mutant FD12. Further mutants with mutations near 58 minutes on the chromosome, and which lacked
hydrogenase
and formate dehydrogenase activities were isolated. These mutants were divided into three groups. Class I mutants were restored to the wild-type phenotype either by growth with 0.6 mM
NiCl2
or following transformation with pRW1. Class II mutants were also complemented by pRW1 but were unaffected by growth with
NiCl2
. Class III mutants were unaffected by both pRW1 and growth with
NiCl2
. The cloned 4.8 kb fragment of chromosomal DNA therefore encodes two genes essential for
hydrogenase
activity. Restriction analysis indicates that the cloned DNA is the same as a fragment that has previously been cloned and which complements the hydB locus (Sankar et al. (1985) J. Bacteriol., 162, 353-360). None of the three classes of mutants possess mutations in
hydrogenase
structural genes.
...
PMID:Pleiotropic hydrogenase mutants of Escherichia coli K12: growth in the presence of nickel can restore hydrogenase activity. 301 43
The Mu dl (ApR lac) bacteriophage was used to generate mutants of Escherichia coli which were defective in formate hydrogenlyase. Three mutants were chosen for further analysis: they lacked
hydrogenase
(hydrogen: benzyl viologen oxidoreductase) activity, but produced normal levels of fumarate reductase activity and two- to three-fold reduced levels of benzyl viologen (BV)-dependent formate dehydrogenase activity. Two of them (hydC) were shown to contain about 4-fold reduced amounts of formate hydrogenlyase and fumarate-dependent H2 uptake activities. The third one (hydD) was totally devoid of both activities. Their insertion sites were located at 77 min on the E. coli map. Subdivision of these mutants into two classes was subsequently based on the restoration capacity of
hydrogenase
activity with high concentration of nickel in the growth media. Addition of 500 microM
NiCl2
led to a complete recovery of
hydrogenase
activity, and to the concomitant restoration of normal BV-linked formate dehydrogenase, formate hydrogenlyase and fumarate-dependent H2 uptake activities in the hydC mutants. The hydD mutant was insensitive to the effect of nickel. Expression of the lac operon in hydC and hydD mutants was induced by anaerobiosis. It was not increased by the addition of formate under anaerobic conditions. The presence of nitrate resulted in slightly reduced beta-galactosidase activities in the hydC mutants, whereas those found in the hydD mutant reached only one third of the level obtained in its absence. Fumarate had no effect on both classes. Moreover, in contrast to the hydD locus, the hydC::Mu dl fusions were found to be dependent upon the positive control exerted by the nirR gene product and were totally repressed by an excess of nickel. In addition, the low levels of overall
hydrogenase
-dependent activities found in a nirR strain were also relieved by the presence of nickel. Our results strongly suggest that the pleiotropic regulatory gene nirR is essential for the expression of a gene (hydC) involved in either transport or processing of nickel in the cell, whose alteration leads to a loss of
hydrogenase
activity.
...
PMID:Genetic and physiological characterization of new Escherichia coli mutants impaired in hydrogenase activity. 308 8
The nickel and cobalt resistance plasmid pMOL28 was transferred by conjugation from its natural host Alcaligenes eutrophus CH34 to the susceptible A. eutrophus N9A. Strain N9A and its pMOL28-containing transconjugant M220 were studied in detail. At a concentration of 3.0 mM
NiCl2
, the wild-type N9A did not grow, while M220 started to grow at its maximum exponential growth rate after a lag of 12 to 24 h. When grown in the presence of subinhibitory concentrations (0.5 mM) of nickel salt, M220 grew actively at 3 mM
NiCl2
without a lag, indicating that nickel resistance is an inducible property. Expression of nickel resistance required active growth in the presence of nickel salts at a concentration higher than 0.05 mM. Two mutants of M220 were isolated which expressed nickel resistance constitutively. When the plasmids, pMOL28.1 and pMOL28.2, carried by the mutants were transferred to strains H16 and CH34, the transconjugants expressed constitutive nickel resistance. This indicates that the mutation is plasmid located. Both mutants expressed constitutive resistance to nickel and cobalt. Physiological studies revealed the following differences between strain N9A and its pMOL28.1-harboring mutant derivatives. (i) The uptake of 63NiCl2 occurred more rapidly in the susceptible strain and reached a 30- to 60-fold-higher amount that in the pMOL28.1-harboring mutant; (ii) in intact cells of the susceptible strain N9A, the cytoplasmic
hydrogenase
was inhibited by 1 to 5 nM
NiCl2
, whereas 10 mM Ni2+ was needed to inhibit the
hydrogenase
of mutant cells; (iii) the minimal concentration of nickel chloride for the derepressed synthesis of cytoplasmic
hydrogenase
was lower in strain N9A (1 to 3 microM) than in the constitutive mutant (8 to 10 microM).
...
PMID:Inducible and constitutive expression of pMOL28-encoded nickel resistance in Alcaligenes eutrophus N9A. 341 Aug 28
The NAD-reducing
hydrogenase
of Nocardia opaca 1 b was found to be a soluble, cytoplasmic enzyme. N. opaca 1 b does not contain an additional membrane-bound hydrogenase. The soluble enzyme was purified to homogeneity with a yield of 19% and a final specific activity of 45 mumol H2 oxidized min-1 mg protein-1. NAD reduction with H2 was completely dependent on the presence of divalent metal ions (Ni2+, Co2+, Mg2+, Mn2+) or of high salt concentrations (0.5-1.5 M). The most specific effect was caused by
NiCl2
, whose optimal concentration turned out to be 1 mM. The stimulation of activity by salts was the greater the less chaotrophic the anion. Maximal activity was achieved in 0.5 M potassium phosphate. Hydrogenase was also activated by protons. The pH optimum in 50 mM triethanolamine/HCl buffer containing 1 mM
NiCl2
was 7.8-8.0. In the absence of Ni2+,
hydrogenase
was only active at pH values below 7.0. The reduction of other electron acceptors was not dependent on metal ions or salts, even though an approximately 1.5-fold stimulation of the reactions by 0.1-10 microM
NiCl2
was observed. With the most effective electron acceptor, benzyl viologen, a 50-fold higher specific activity was determined than with NAD. The total molecular weight of
hydrogenase
has been estimated to be 200 000 (gel filtration) and 178 000 (sucrose density gradient centrifugation, and sodium dodecyl sulfate electrophoresis) respectively. The enzyme is a tetramer consisting of non-identical subunits with molecular weights of 64 000, 56 000, 31 000 and 27 000. It was demonstrated by electrophoretic analyses that in the absence of
NiCl2
and at alkaline pH values the native
hydrogenase
dissociates into two subunit dimers. The first dimer was dark yellow coloured, completely inactive and composed of subunits with molecular weights of 64 000 and 31 000. The second dimer was light yellow, inactive with NAD but still active with methyl viologen. It was composed of subunits with molecular weights of 56 000 and 27 000. Immunological comparison of the
hydrogenase
of N. opaca 1 b and the soluble
hydrogenase
of Alcaligenes eutrophus H16 revealed that these two NAD-linked hydrogenases are partially identical proteins.
...
PMID:Effect of nickel on activity and subunit composition of purified hydrogenase from Nocardia opaca 1 b. 631 36
Cultures of the green alga Scenedesmus obliquus were grown in the presence of either the chelating reagent EDTA or
NiCl2
in various concentrations and assayed for
hydrogenase
catalyzed photohydrogen evolution after an anaerobic dark adaptation period. Cultivation of algae in the presence of 100 microM EDTA inhibited the formation of
hydrogenase
activity by 37%. After a cultivation of the cells in the presence of 5-20 microM
NiCl2
photohydrogen evolution was increased by 20-40%. Addition of EDTA up to a final concentration of 1.5 mM had no effect on the activity of
hydrogenase
in cell-free
hydrogenase
preparations. Cultures grown in the presence of radioactive 63NiCl2 incorporated 63Ni in a parallel fashion to the cell growth. In radioactive labeled
hydrogenase
preparations a co-elution of radioactivity and
hydrogenase
activity could be observed using gel filtration chromatography.
...
PMID:Evidence for nickel in the soluble hydrogenase from the unicellular green alga Scenedesmus obliquus. 814 7
The HypB protein from Bradyrhizobium japonicum is a metal-binding GTPase required for
hydrogenase
expression. In-frame mutagenesis of hypB resulted in strains that were partially or completely deficient in
hydrogenase
expression, depending on the degree of disruption of the gene. Complete deletion of the gene yielded a strain (JH delta Eg) which lacked
hydrogenase
activity under all conditions tested, including the situation as bacteroids from soybean nodules. Mutant strain JH delta 23H lacking only the N-terminal histidine-rich region (38 amino acids deleted, 23 of which are His residues) expressed partial
hydrogenase
activity. The activity of strain JH delta 23H was low in comparison to the wild type in 10-50 nM nickel levels, but could be cured to nearly wild-type levels by including 50 microM nickel during the derepression incubation. Studies on strains harbouring the hup promoter-lacZ fusion plasmid showed that the complete deletion of hypB nearly abolished hup promoter activity, whereas the histidine deletion mutant had 60% of the wild-type promoter activity in 50 microM
NiCl2
. Further evidence that HypB is required for hup promoter-binding activity was obtained from gel-shift assays. HypB could not be detected by immunoblotting when the cells were cultured heterotrophically, but when there was a switch to microaerobic conditions (1% partial pressure O2, 10% partial pressure H2) HypB was detected, and its expression preceded
hydrogenase
synthesis by 3-6 h. 63Ni accumulation by whole cells showed that both of the mutant strains accumulate less nickel than the wild-type strain at all time points tested during the derepression incubation. Wild-type cultures that received nickel during the HypB expression-specific period and were then washed and derepressed for
hydrogenase
without nickel had activities comparable to those cells that were derepressed for
hydrogenase
with nickel for the entire time period. In contrast to the wild type, strain JH delta 23H cultures supplied with nickel only during the HypB expression period achieved
hydrogenase
activities that were 30% of those cultures supplied with nickel for the entire
hydrogenase
derepression period. These results indicate that the loss of the metal-binding area of HypB causes a decrease in the ability of the cells to sequester and store nickel for later use in one or more
hydrogenase
expression steps.
...
PMID:The HypB protein from Bradyrhizobium japonicum can store nickel and is required for the nickel-dependent transcriptional regulation of hydrogenase. 914 Sep 70
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