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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)
The interaction of the hydrogenase maturation endopeptidase HycI with its substrate, the precursor of the large subunit, was studied. Replacement of conserved amino-acid residues in HycI, which have been shown to bind a cadmium ion from the crystallization buffer in crystals of HybD (
endopeptidase
for
hydrogenase
2), abolished or strongly reduced processing activity. Atomic absorption spectroscopy of purified HycI and HybD proteins showed the absence of nickel. In vitro processing assays showed that the reaction requires nickel to be bound to the precursor and the protease does not have a function in nickel delivery to the substrate. Radioactive labelling of cells with 63Ni, devoid of
endopeptidase
, resolved several forms of the precursor which are possibly intermediates in the maturation pathway. It is concluded that the
endopeptidase
uses the metal in the large subunit of [NiFe]-hydrogenases as a recognition motif.
...
PMID:Nickel serves as a substrate recognition motif for the endopeptidase involved in hydrogenase maturation. 1072 38
The maturation of [NiFe]-hydrogenases is a catalysed process in which the activities of at least seven proteins are involved. The last step consists of the endoproteolytic cleavage of the precursor of the large subunit after the [NiFe]-metal centre has been assembled. The amino acid sequence requirements for the
endopeptidase
HycI involved in the C-terminal processing of HycE, the large subunit of the
hydrogenase
3 from Escherichia coli, were investigated. Mutational alteration of the amino acid residues neighbouring the cleavage site showed that proteolysis still occurred when chemically similar amino acids were exchanged. Processing was blocked, however, in a variant in which the methionine at the C-terminal side was replaced by a glutamate residue. Truncation of the precursor from the C-terminal end rendered variants amenable to maturation even when two-thirds of the extension were removed but abolished proteolysis upon further deletion of a cluster of six basic amino acids. A construct in which the C-terminal extension from the large subunit of the
hydrogenase
2 was fused to the mature part of the large subunit of
hydrogenase
3 was neither processed by HycI nor by HybD, the
endopeptidase
specific for the large subunit of
hydrogenase
2. The maturation
endopeptidase
, therefore, exhibits a relaxed sequence constraint in recognition of its cleavage site and does not require the entire C-terminal extension. The results point to an interaction of the C-terminus with some domain of the large subunit, rendering a conformation amenable to recognition by the
endopeptidase
.
...
PMID:Analysis of the cleavage site specificity of the endopeptidase involved in the maturation of the large subunit of hydrogenase 3 from Escherichia coli. 1079 82
The steps in the maturation of the precursor of the large subunit (pre-HycE) of
hydrogenase
3 from Escherichia coli taking place after incorporation of both iron and nickel were investigated. Pre-HycE could be matured and processed in the absence of the small subunit but association with the cytoplasmic membrane required heterodimer formation between the two subunits. Pre-HycE formed a complex with the chaperone-like protein HypC in the absence of the small subunit and, in this complex, also incorporated nickel. For the C-terminal processing, HypC had to leave the complex since only a HypC-free, nickel-containing form of pre-HycE was a substrate for the maturation
endopeptidase
.
...
PMID:Dissection of the maturation reactions of the [NiFe] hydrogenase 3 from Escherichia coli taking place after nickel incorporation. 1081 85
The fidelity of metal incorporation into the active center of
hydrogenase
3 from Escherichia coli was studied by analyzing the inhibition of the maturation pathway by zinc and other transition metals. Hydrogenase maturation of wild-type cells was significantly affected only by concentrations of zinc or cadmium higher than 200 microM, whereas a mutant with a lesion in the nickel uptake system displayed a total blockade of the proteolytic processing of the precursor form into the mature form of the large subunit after growth in the presence of 10 microM Zn(2+). The precursor could not be processed in vitro by the maturation
endopeptidase
even in the presence of an excess of nickel ions. Evidence is presented that zinc does not interfere with the incorporation of iron into the metal center. Precursor of the large subunit accumulated in nickel proficient cells formed a transient substrate complex with the cognate endoprotease HycI whereas that of zinc-supplemented cells did not. The results show that zinc can intrude the nickel-dependent maturation pathway only when nickel uptake is blocked. Under this condition zinc appears to be incorporated at the nickel site of the large subunit and delivers a precursor not amenable to proteolytic processing since the interaction with the endoprotease is blocked.
...
PMID:Fidelity of metal insertion into hydrogenases. 1141 15
The actinomycete Rhodococcus opacus MR11 harbors a bidirectional NAD-reducing [NiFe]
hydrogenase
(SH). This cytoplasmic enzyme is composed of two heterodimeric modules which catalyze distinct enzymatic activities. The
hydrogenase
moiety mediates H(2):benzyl viologen oxidoreductase activity and the FMN-containing diaphorase module displays NADH:benzyl viologen oxidoreductase activity. The SH of Rh. opacus resembles [NiFe] hydrogenases present in strains of the proteobacterium Ralstonia eutropha and in species of cyanobacteria. Heterologous expression of active [NiFe] hydrogenases failed in most cases due to protein-assisted maturation processes implicated in the assembly of the NiFe bimetallic site. This study reports on the construction of a recombinant plasmid harboring the four SH subunit genes hoxFUYH and the associated
endopeptidase
gene hoxW from Rh. opacus under the regime of the SH promoter from R. eutropha H16. The resulting recombinant plasmid restored lithoautotrophic growth in a R. eutropha mutant impaired in H(2)-oxidizing ability. The SH of Rh. opacus was functionally active in R. eutropha and displayed the typical features described for its natural host. It readily dissociated in vitro into two active subforms. Dissociation was accompanied by the loss of the H(2)-dependent NAD-reducing activity, which was partially reconstituted by addition of 5 mM MgSO(4) and 0.5 mM NiCl(2). Activity and stability of the SH from Rh. opacus were enhanced almost three-fold by co-overexpression of the SH-associated metal insertion genes hypA2B2F2 of R. eutropha. Under optimal conditions the heterologously expressed Rh. opacus SH catalyzed NAD-reduction at a specific activity of 1.7 units per mg protein, which is approximately 30% of the yield obtained for the R. eutropha SH. The results indicate that, despite an enormous phylogenetic distance of the two bacterial species, their SH proteins are highly related.
...
PMID:Expression of a functional NAD-reducing [NiFe] hydrogenase from the gram-positive Rhodococcus opacus in the gram-negative Ralstonia eutropha. 1180 65
We have identified an NiFe-
hydrogenase
exclusively localized in the cytoplasm of the hyperthermophilic archaeon Thermococcus kodakaraensis KOD1 (T. kodakaraensis
hydrogenase
). A gene cluster encoding T. kodakaraensis
hydrogenase
was composed of four open reading frames (hyhBGSL(Tk)), where the hyhS(Tk) and hyhL(Tk) gene products corresponded to the small and the large subunits of NiFe-
hydrogenase
, respectively. A putative open reading frame for
hydrogenase
-specific maturation
endopeptidase
(hybD(Tk)) was found downstream of the cluster. Polyclonal antibodies raised against recombinant HyhL(Tk) were used for immunoaffinity purification of T. kodakaraensis
hydrogenase
, leading to a 259-fold concentration of
hydrogenase
activity. The purified T. kodakaraensis
hydrogenase
was composed of four subunits (beta, gamma, delta, and alpha), corresponding to the products of hyhBGSL(Tk), respectively. Each alphabetagammadelta unit contained 0.8 mol of Ni, 22.3 mol of Fe, 21.1 mol of acid-labile sulfide, and 1.01 mol of flavin adenine dinucleotide. The optimal temperature for the T. kodakaraensis
hydrogenase
was 95 degrees C for H(2) uptake and 90 degrees C for H(2) production with methyl viologen as the electron carrier. We found that NADP(+) and NADPH promoted high levels of uptake and evolution of H(2), respectively, suggesting that the molecule is the electron carrier for the T. kodakaraensis
hydrogenase
.
...
PMID:Characterization of a cytosolic NiFe-hydrogenase from the hyperthermophilic archaeon Thermococcus kodakaraensis KOD1. 1259 89
The structural genes (hupSL) encoding an uptake
hydrogenase
in the unicellular cyanobacterium Gloeothece sp. ATCC 27152, a strain capable of aerobic N(2) fixation, were identified and sequenced. 3'-RACE experiments uncovered the presence of an additional ORF 184 bp downstream of hupL, showing a high degree of sequence identity with a gene encoding an uptake-
hydrogenase
-specific
endopeptidase
(hupW) in other cyanobacteria. In addition, the transcription start point was identified 238 bp upstream of the hupS translational start. RT-PCR experiments revealed that hupW is co-transcribed with the uptake
hydrogenase
structural genes in Gloeothece sp. ATCC 27152. In addition, Northern hybridizations clearly showed that hupSLW are transcribed under nitrogen fixing conditions, but not in the presence of combined nitrogen. A putative NtcA binding site was identified in the promoter region upstream of hupS, centred at -41.5 bp with respect to the transcription start point. Electrophoretic retardation of a labelled DNA fragment (harbouring the putative NtcA-binding motif) was significantly affected by an Escherichia coli cell-free extract containing overexpressed NtcA, suggesting that NtcA is involved in the transcriptional regulation of hupSLW.
...
PMID:Characterization and transcriptional analysis of hupSLW in Gloeothece sp. ATCC 27152: an uptake hydrogenase from a unicellular cyanobacterium. 1552 52
The complete primary structure of the hyn-region in the genome of Desulfovibrio vulgaris Miyazaki F (DvMF), encoding the [NiFe]-
hydrogenase
and two maturation proteins has been identified. Besides the formerly reported genes for the large and small subunits, this region comprises genes encoding an
endopeptidase
(HynC) and a putative chaperone (HynD). The complete genomic region covers 4086 nucleotides including the previously published upstream located promoter region and the sequences of the structural genes. A phylogenetic tree for both maturation proteins shows strongest sequential relationship to the orthologous proteins of Desulfovibrio vulgaris Hildenborough (DvH). Secondary structure prediction for HynC (168 aa, corresponding to a molecular weight of 17.9 kDa) revealed a practically identical arrangement of alpha-helical and beta-strand elements between the orthologous protein HybD from E. coli and allowed a three-dimensional modelling of HynC on the basis of the formerly published structure of HybD. The putative chaperone HynD consists of 83 aa (molecular weight of 9 kDa) and shows 76% homology to DvH HynD. Preliminary experiments demonstrate that the operon is expressed under the control of its own promoter in Escherichia coli, although no further processing could be observed, providing evidence that additional proteins have to be involved in the maturation process. Accession numbers: DQ072852, HynC protein ID AAY90127, HynD protein ID AAY90128.
...
PMID:Sequential and structural analysis of [NiFe]-hydrogenase-maturation proteins from Desulfovibrio vulgaris Miyazaki F. 1690 53
[NiFe] hydrogenases are metalloenzymes involved in many biological processes concerning the metabolism of hydrogen. The maturation of the large subunit of these hydrogenases requires the cleavage of a peptide at the C terminus by an
endopeptidase
before the final formation of the [NiFe] metallocenter. HycI is an
endopeptidase
of the M52 family and responsible for the C-terminal cleavage of the large subunit of
hydrogenase
3 in Escherichia coli. Although extensive studies were performed, the molecular mechanism of recognition and cleavage of
hydrogenase
3 remains elusive. Herein, we report the solution structure of E. coli HycI determined by high resolution nuclear magnetic resonance spectroscopy. This is the first solution structure of the apo form of
endopeptidase
of the M52 family reported thus far. The overall structure is similar to the crystal structure of holo-HybD in the same family. However, significant diversity was observed between the two structures. Especially, HycI shows an open conformation at the putative nickel-binding site, whereas HybD adopts a closed conformation. In addition, we performed backbone dynamic studies to probe the motional properties of the apo form of HycI. Furthermore, the metal ion titration experiments provide insightful information on the substrate recognition and cleavage processes. Taken together, our current structural, biochemical, and dynamic studies extend the knowledge of the M52 family proteins and provide novel insights into the biological function of HycI.
...
PMID:Solution structure and backbone dynamics of an endopeptidase HycI from Escherichia coli: implications for mechanism of the [NiFe] hydrogenase maturation. 1715 Sep 61
Using a metagenomics approach, we have cloned a piece of environmental DNA from the Sargasso Sea that encodes an [NiFe]
hydrogenase
showing 60% identity to the large subunit and 64% to the small subunit of a Thiocapsa roseopersicina O2-tolerant [NiFe]
hydrogenase
. The DNA sequence of the
hydrogenase
identified by the metagenomic approach was subsequently found to be 99% identical to the hyaA and hyaB genes of an Alteromonas macleodii
hydrogenase
, indicating that it belongs to the Alteromonas clade. We were able to express our new Alteromonas
hydrogenase
in T. roseopersicina. Expression was accomplished by coexpressing only two accessory genes, hyaD and hupH, without the need to express any of the hyp accessory genes (hypABCDEF). These results suggest that the native accessory proteins in T. roseopersicina could substitute for the Alteromonas counterparts that are absent in the host to facilitate the assembly of a functional Alteromonas
hydrogenase
. To further compare the complex assembly machineries of these two [NiFe] hydrogenases, we performed complementation experiments by introducing the new Alteromonas hyaD gene into the T. roseopersicina hynD mutant. Interestingly, Alteromonas
endopeptidase
HyaD could complement T. roseopersicina HynD to cleave endoproteolytically the C-terminal end of the T. roseopersicina HynL
hydrogenase
large subunit and activate the enzyme. This study refines our knowledge on the selectivity and pleiotropy of the elements of the [NiFe]
hydrogenase
assembly machineries. It also provides a model for functionally analyzing novel enzymes from environmental microbes in a culture-independent manner.
...
PMID:Discovery of [NiFe] hydrogenase genes in metagenomic DNA: cloning and heterologous expression in Thiocapsa roseopersicina. 1963 7
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