Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.12.7.2 (hydrogenase)
 3,522 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Proteus mirabilis is a Gram-negative uropathogen and frequent cause of catheter-associated urinary tract infection (CAUTI). One important virulence factor is its urease enzyme, which requires nickel to be catalytically active. It is, therefore, hypothesized that nickel import is critical for P. mirabilis urease activity and pathogenesis during infection. P. mirabilis strain HI4320 encodes two putative nickel import systems, designated Nik and Ynt. By disrupting the substrate-binding proteins from each import system (nikA and yntA), we show that Ynt is the primary nickel importer, while Nik only compensates for loss of Ynt at high nickel concentrations. We further demonstrate that these are the only binding proteins capable of importing nickel for incorporation into the urease enzyme. Loss of either nickel-binding protein results in a significant fitness defect in a murine model of CAUTI, but YntA is more crucial as the yntA mutant was significantly outcompeted by the nikA mutant. Furthermore, despite the importance of nickel transport for hydrogenase activity, the sole contribution of yntA and nikA to virulence is due to their role in urease activity, as neither mutant exhibited a fitness defect when disrupted in a urease-negative background.
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PMID:Ynt is the primary nickel import system used by Proteus mirabilis and specifically contributes to fitness by supplying nickel for urease activity. 3225 26

Pseudomonas chlororaphis B23 yields nitrile hydratase (NHase) used for the production of 5-cyanovaleramide at the industrial level. Although the nhpC gene (known as P47K) located just downstream of the NHase structural genes (nhpAB) has been important for efficient NHase expression, the key role of nhpC remains poorly studied. Here, we purified two NHases expressed in the presence and absence of nhpC, respectively, and characterized them. The purified NHase expressed with nhpC proved to be an iron-containing holo-NHase, while the purified one expressed without nhpC was identified as an apo-NHase, which was iron-deficient. These findings indicated that nhpC would play a crucial role in the post-translational incorporation of iron into the NHase active site as a metal chaperone. In the overall amino acid sequence of NhpC, only the N-terminus exhibited similarities to the CobW protein involved in cobalamin biosynthesis, the UreG and HypB proteins essential for the metallocenter biosynthesis of urease and hydrogenase, respectively. NhpC contains a P-loop motif known as a nucleotide-binding site, and Lys23 and Thr24 are conserved in the P-loop motif in NhpC. Expression analysis of NHase formed in the presence of each mutant NhpC (i.e., K23A and T24A) resulted in immunodetectable production of a mutant NhpC and remarkable expression of NHase lacking the enzyme activity. These findings suggested that an intact P-loop containing Lys23 and Thr24 would be essential for the NhpC function in vivo for the post-translational metallocenter assembly of NHase.
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PMID:Metal chaperone, NhpC, involved in the metallocenter biosynthesis of nitrile hydratase. 3316 26

Proteus mirabilis is an important uropathogen, featured with urinary stone formation. Formate hydrogenlyase (FHL), consisting of formate dehydrogenase H and hydrogenase for converting proton to hydrogen, has been implicated in virulence. In this study, we investigated the role of P. mirabilis FHL hydrogenase and the FHL activator, FhlA. fhlA and hyfG (encoding hydrogenase large subunit) displayed a defect in acid resistance. fhlA and hyfG mutants displayed a delay in medium deacidification compared to wild-type and ureC mutant failed to deacidify the medium. In addition, loss of fhlA or hyfG decreased urease activity in the pH range of 5-8. The reduction of urease activities in fhlA and hyfG mutants subsided gradually over the pH range and disappeared at pH 9. Furthermore, mutation of fhlA or hyfG resulted in a decrease in urinary stone formation in synthetic urine. These indicate fhlA- and hyf-mediated deacidification affected urease activity and stone formation. Finally, fhlA and hyfG mutants exhibited attenuated colonization in mice. Altogether, we found expression of fhlA and hyf confers medium deacidification via facilitating urease activity, thereby urinary stone formation and mouse colonization. The link of acid resistance to urease activity provides a potential strategy for counteracting urinary tract infections by P. mirabilis.
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PMID:Deacidification by FhlA-dependent hydrogenase is involved in urease activity and urinary stone formation in uropathogenic Proteus mirabilis. 3317 98


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