Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.13.3 (histidine kinase)
 2,405 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The synthesis of the membrane-bound [NiFe]hydrogenase of Rhodobacter capsulatus (HupSL) is regulated negatively by the protein histidine kinase, HupT, and positively by the response regulator, HupR. It is demonstrated in this work that HupT and HupR are partners in a two-component signal transduction system. The binding of HupR protein to the hupS promoter regulatory region (phupS ) was studied using gel retardation and footprinting assays. HupR protected a 50 bp region localized upstream from the binding site of the histone-like integration host factor (IHF) regulator. HupR, which belongs to the NtrC subfamily, binds to an enhancer site (TTG-N5-CAA) localized at -162/-152 nt. However, the enhancer-binding HupR protein does not require the RpoN sigma factor for transcriptional activation, as is the case for NtrC from enteric bacteria, but functions with sigma70-RNA polymerase, as is the case for R. capsulatus NtrC. Besides, unlike NtrC from Escherichia coli, HupR activates transcription in the unphosphorylated form and becomes inactive by phosphorylation. This was demonstrated by replacing the putative phosphorylation site (D54) of the HupR protein with various amino acids or by deleting it using site-directed mutagenesis. Strains expressing mutated hupR genes showed high hydrogenase activities even in the absence of H2, indicating that hupSL transcription is activated by the binding of unphosphorylated HupR protein. Strains producing mutated HupRD54 proteins were derepressed for hupSL expression as were HupT- mutants. It is shown that the phosphorylated form of HupT was able to transfer phosphate to wild-type HupR protein but not to mutated D54 HupR proteins. Thus, it is concluded that HupT and HupR are the partners of a two-component regulatory system that regulates hupSL gene transcription.
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PMID:The synthesis of Rhodobacter capsulatus HupSL hydrogenase is regulated by the two-component HupT/HupR system. 1059 24

Transcription of the hupSL genes, which encode the uptake [NiFe]hydrogenase of Rhodobacter capsulatus, is specifically activated by H(2). Three proteins are involved, namely the H(2)-sensor HupUV, the histidine kinase HupT and the transcriptional activator HupR. hupT and hupUV mutants have the same phenotype, i.e. an increased level of hupSL expression (assayed by phupS::lacZ fusion) in the absence of H(2); they negatively control hupSL gene expression. HupT can autophosphorylate its conserved His(217), and in vitro phosphotransfer to Asp(54) of its cognate response regulator, HupR, was demonstrated. The non-phosphorylated form of HupR binds to an enhancer site (5'-TTG-N(5)-CAA) of phupS localized at -162/-152 nt and requires integration host factor to activate fully hupSL transcription. HupUV is an O(2)-insensitive [NiFe]hydrogenase, which interacts with HupT to regulate the phosphorylation state of HupT in response to H(2) availability. The N-terminal domain of HupT, encompassing the PAS domain, is required for interaction with HupUV. This interaction with HupT, leading to the formation of a (HupT)(2)-(HupUV)(2) complex, is weakened in the presence of H(2), but incubation of HupUV with H(2) has no effect on the stability of the heterodimer/tetramer, HupUV-(HupUV)(2), equilibrium. HupSL biosynthesis is also under the control of the global two-component regulatory system RegB/RegA, which controls gene expression in response to redox. RegA binds to a site close to the -35 promoter recognition site and to a site overlapping the integration host factor DNA-binding site (5'-TCACACACCATTG, centred at -87 nt) and acts as a repressor.
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PMID:Transcriptional regulation of the uptake [NiFe]hydrogenase genes in Rhodobacter capsulatus. 1566 56

The FsrABDC signal transduction system is a major virulence regulator in Enterococcus faecalis. The FsrC sensor histidine kinase, upon activation by the gelatinase biosynthesis-activating pheromone (GBAP) peptide encoded by the fsrBD genes, phosphorylates the FsrA response regulator required for the transcription of the fsrBDC and the gelE-sprE genes from the fsrB promoter and the gelE promoter, respectively. FsrA belongs to the LytTR family of proteins, which includes other virulence regulators, such as AgrA of Staphylococcus aureus, AlgR of Pseudomonas aeruginosa, and VirR of Clostridium perfringens. The LytTR DNA-binding domain that characterizes these proteins generally binds to two imperfect direct repeats separated by a number of bases that place the repeats on the same face of the DNA helix. In this study, we demonstrated that FsrA also binds to two imperfect direct repeats separated by 13 bp, based on the consensus sequence of FsrA, T/AT/CAA/GGGAA/G, which is consistent with the binding characteristics of LytTR domains.
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PMID:Enterococcus faecalis virulence regulator FsrA binding to target promoters. 2125 71