Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
Gene/Protein
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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 nucleotide sequence has been determined for a twelve-gene operon of Escherichia coli designated the hyf operon (hyfABCDEFGHIR-focB). The hyf operon is located at 55.8-56.0 min and encodes a putative nine-subunit
hydrogenase
complex (
hydrogenase
four or Hyf), a potential formate- and sigma 54-dependent transcriptional activator, HyfR (related to FhlA), and a possible formate transporter, FocB (related to FocA). Five of the nine Hyf-complex subunits are related to subunits of both the E. coli
hydrogenase
-3 complex (Hyc) and the proton-translocating NADH:quinone oxidoreductases (complex I and Nuo), whereas two Hyf subunits are related solely to NADH:quinone oxidoreductase subunits. The Hyf components include a predicted 523 residue [Ni-Fe]
hydrogenase
(large subunit) with an N-terminus (residues 1-170) homologous to the 30 kDa or NuoC subunit of complex I. It is proposed that Hyf, in conjunction with formate dehydrogenase H (Fdh-H), forms a hitherto unrecognized respiration-linked proton-translocating formate hydrogenlyase (
FHL-2
). It is likely that HyfR acts as a formate-dependent regulator of the hyf operon and that FocB provides the Hyf complex with external formate as substrate.
...
PMID:A 12-cistron Escherichia coli operon (hyf) encoding a putative proton-translocating formate hydrogenlyase system. 938 41
The hyc operon of Escherichia coli encodes the H2-evolving
hydrogenase
3 (Hyd-3) complex that, in conjunction with formate dehydrogenase H (Fdh-H), constitutes a membrane-associated formate hydrogenlyase (FHL) catalyzing the disproportionation of formate to CO2 and H2 during fermentative growth at low pH. Recently, an operon (hyf) encoding a potential second H2-evolving
hydrogenase
(Hyd-4) was identified in E. coli. In this study the roles of the hyc- and hyf-encoded systems in formate-dependent H2 production and Fdh-H activity have been investigated. In cells grown on glucose under fermentative conditions at slightly acidic pH the production of H2 was mostly Hyd-3- and Fdh-H-dependent, and Fdh-H activity was also mainly Hyd-3-dependent. However, at slightly alkaline pH, H2 production was found to be largely Hyd-4, Fdh-H and F0F1-ATPase-dependent, and Fdh-H activity was partially dependent on Hyd-4 and F0F1-ATPase. These results suggest that, at slightly alkaline pH, H2 production and Fdh-H activity are dependent on both the F0F1-ATPase and a novel FHL, designated
FHL-2
, which is composed of Hyd-4 and Fdh-H, and is driven by a proton gradient established by the F0F1-ATPase.
...
PMID:The roles of hydrogenases 3 and 4, and the F0F1-ATPase, in H2 production by Escherichia coli at alkaline and acidic pH. 1195 27
Trabulsiella guamensis
is a nonpathogenic enterobacterium that was isolated from a vacuum cleaner on the island of Guam. It has one H
2
-oxidizing Hyd-2-type
hydrogenase
(Hyd) and encodes an H
2
-evolving Hyd that is most similar to the uncharacterized
Escherichia coli
formate hydrogenlyase (
FHL-2
Ec
) complex. The
T. guamensis
FHL-2
(
FHL-2
Tg
) complex is predicted to have 5 membrane-integral and between 4 and 5 cytoplasmic subunits. We showed that the
FHL-2
Tg
complex catalyzes the disproportionation of formate to CO
2
and H
2
FHL-2
Tg
has activity similar to that of the
E. coli
FHL-1
Ec
complex in H
2
evolution from formate, but the complex appears to be more labile upon cell lysis. Cloning of the entire 13-kbp
FHL-2
Tg
operon in the heterologous
E. coli
host has now enabled us to unambiguously prove
FHL-2
Tg
activity, and it allowed us to characterize the
FHL-2
Tg
complex biochemically. Although the formate dehydrogenase (FdhH) gene
fdhF
is not contained in the operon, the FdhH is part of the complex, and
FHL-2
Tg
activity was dependent on the presence of
E. coli
FdhH. Also, in contrast to
E. coli
,
T. guamensis
can ferment the alternative carbon source cellobiose, and we further investigated the participation of both the H
2
-oxidizing Hyd-2
Tg
and the H
2
-forming
FHL-2
Tg
under these conditions.
IMPORTANCE
Biological H
2
production presents an attractive alternative for fossil fuels. However, in order to compete with conventional H
2
production methods, the process requires our understanding on a molecular level. FHL complexes are efficient H
2
producers, and the prototype FHL-1
Ec
complex in
E. coli
is well studied. This paper presents the first biochemical characterization of an
FHL-2
-type complex. The data presented here will enable us to solve the long-standing mystery of the
FHL-2
Ec
complex, allow a first biochemical characterization of
T. guamensis
's fermentative metabolism, and establish this enterobacterium as a model organism for FHL-dependent energy conservation.
...
PMID:Dissection of the Hydrogen Metabolism of the Enterobacterium Trabulsiella guamensis: Identification of a Formate-Dependent and Essential Formate Hydrogenlyase Complex Exhibiting Phylogenetic Similarity to Complex I. 3096 55
