Gene/Protein
Disease
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Drug
Enzyme
Compound
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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)
[NiFe]
hydrogenase
maturation proteins HypC, HypD, and HypE catalyze the insertion and cyanation of the iron center of [NiFe] hydrogenases by an unknown mechanism. We have determined the crystal structures of HypC, HypD, and HypE from Thermococcus kodakaraensis KOD1 at 1.8 A, 2.07 A, and 1.55 A resolution, respectively. The structure of HypD reveals its probable iron binding and active sites for cyanation. An extended conformation of each conserved motif of HypC and HypE allows the essential cysteine residues of both proteins to interact with the active site of HypD. Furthermore, the C-terminal tail of HypE is shown to exist in an ATP-dependent dynamic equilibrium between outward and inward conformations. Unexpectedly, the [4Fe-4S] cluster environment of HypD is quite similar to that of ferredoxin:
thioredoxin reductase
(FTR), indicating the existence of a redox cascade similar to the FTR system. These results suggest a cyanation reaction mechanism via unique thiol redox signaling in the HypCDE complex.
...
PMID:Crystal structures of [NiFe] hydrogenase maturation proteins HypC, HypD, and HypE: insights into cyanation reaction by thiol redox signaling. 1761 88
To date, NAD(P)H, ferredoxin, and coenzyme F
420
have been identified as electron donors for
thioredoxin reductase
(TrxR). In this study, we present a novel electron source for TrxR. In the hyperthermophilic archaeon
Thermococcus onnurineus
NA1, the
frhAGB
-encoded
hydrogenase
, a homolog of the F
420
-reducing
hydrogenase
of methanogens, was demonstrated to interact with TrxR in coimmunoprecipitation experiments and
in vitro
pulldown assays. Electrons derived from H
2
oxidation by the
frhAGB
-encoded
hydrogenase
were transferred to TrxR and reduced Pdo, a redox partner of TrxR. Interaction and electron transfer were observed between TrxR and the heterodimeric
hydrogenase
complex (FrhAG) as well as the heterotrimeric complex (FrhAGB). Hydrogen-dependent reduction of TrxR was 7-fold less efficient than when NADPH was the electron donor. This study not only presents a different type of electron donor for TrxR but also reveals new functionality of the
frhAGB
-encoded
hydrogenase
utilizing a protein as an electron acceptor.
IMPORTANCE
This study has importance in that TrxR can use H
2
as an electron donor with the aid of the
frhAGB
-encoded
hydrogenase
as well as NAD(P)H in
T. onnurineus
NA1. Further studies are needed to explore the physiological significance of this protein. This study also has importance as a significant step toward understanding the functionality of the
frhAGB
-encoded
hydrogenase
in a nonmethanogen; the
hydrogenase
can transfer electrons derived from oxidation of H
2
to a protein target by direct contact without the involvement of an electron carrier, which is distinct from the mechanism of its homologs, F
420
-reducing hydrogenases of methanogens.
...
PMID:Direct Electron Transfer between the
frhAGB
-Encoded Hydrogenase and Thioredoxin Reductase in the Nonmethanogenic Archaeon
Thermococcus onnurineus
NA1. 3223 83
