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Histidine Protein Kinase (histidine + protein_kinase)

Distribution by Scientific Domains
Chemistry75%

Selected Abstracts

Staphylococcal NreB: an O2 -sensing histidine protein kinase with an O2 -labile iron,sulphur cluster of the FNR type

MOLECULAR MICROBIOLOGY, Issue 3 2004
Annegret Kamps
Summary The nreABC (nitrogen regulation) operon encodes a new staphylococcal two-component regulatory system that controls dissimilatory nitrate/nitrite reduction in response to oxygen. Unlike other two-component sensors NreB is a cytosolic protein with four N-terminal cysteine residues. It was shown that both the NreB,cysteine cluster and Fe ions are required for function. Isolated NreB was converted to the active form by incubation with cysteine desulphurase, ferrous ions and cysteine. This activation is typical for FeS-containing proteins and was reversed by oxygen. During reconstitution an absorption band at 420 nm and a yellow-brownish colour (typical for an FNR-type iron,sulphur cluster formation) developed. After alkylation of thiol groups in NreB and in the cysteine mutant NreB(C62S) almost no iron,sulphur cluster was incorporated; both findings corroborated the importance of the cysteine residues. Comparison of the kinase activity of (i) the reconstituted (ii) the unreconstituted, and (iii) the unreconstituted and deferrated NreB,His indicated that NreB kinase activity depended on iron availability and was greatly enhanced by reconstitution. NreB is the first direct oxygen-sensing protein described in staphylococci so far. Reconstituted NreB contains 4,8 acid-labile Fe and sulphide ions per NreB which is in agreement with the presence of 1,2 iron,sulphur [4Fe-4S]2+ clusters of the FNR-type. Unlike FNR, NreB does not act directly as transcriptional activator, but transfers the phosphoryl group to the response regulator NreC. [source]

NMR structure of the pseudo -receiver domain of CikA

PROTEIN SCIENCE, Issue 3 2007
Tiyu Gao
Abstract The circadian input kinase (CikA) is a major element of the pathway that provides environmental information to the circadian clock of the cyanobacterium Synechococcus elongatus. CikA is a polypeptide of 754 residues and has three recognizable domains: GAF, histidine protein kinase, and receiver-like. This latter domain of CikA lacks the conserved phospho-accepting aspartyl residue of bona fide receiver domains and is thus a pseudo -receiver (PsR). Recently, it was shown that the PsR domain (1) attenuates the autokinase activity of CikA, (2) is necessary to localize CikA to the cell pole, and (3) is necessary for the destabilization of CikA in the presence of the quinone analog 2,5-dibromo-3-methyl-6-isopropyl-p-benzoquinone (DBMIB). The solution structure of the PsR domain of CikA, CikAPsR, is presented here. A model of the interaction between the PsR domain and HPK portion of CikA provides a potential explanation for how the PsR domain attenuates the autokinase activity of CikA. Finally, a likely quinone-binding surface on CikAPsR is shown here. [source]

Crystallographic characterization of a multidomain histidine protein kinase from an essential two-component regulatory system

ACTA CRYSTALLOGRAPHICA SECTION F (ELECTRONIC), Issue 4 2009
Haiyan Zhao
YycGF is a highly conserved two-component signal transduction system that is specific to low-G+C Gram-positive bacteria, including many important human pathogens. It has been recognized as a crucial regulatory system for cell-wall metabolism. YycG, the histidine protein kinase of this system, is a multidomain transmembrane protein. The truncated cytoplasmic portion of YycG from Bacillus subtilis encompassing the PAS domain, the dimerization domain and the catalytic domain was expressed, purified and crystallized. X-ray data were collected to 2.8,Å resolution with a completeness of 98.2% and an overall Rmerge of 5.6%. The crystals belonged to space group P61 or P65, with unit-cell parameters a = 135.0, c = 133.0,Å. The selenomethionine-substituted version of the protein was crystallized and X-ray data were collected to 3.6,Å resolution for subsequent MAD phasing. [source]