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Query: EC:2.7.13.3 (histidine kinase)
 2,405 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Histone H4 is a good substrate in vitro for the protein histidine kinase activity found both in Physarum polycephalum nuclear extracts and in Saccharomyces cerevisiae cell extracts. However, histone H4 in nucleosome core particles is not a substrate for these kinases. Isolated chromatin was also not a substrate for the protein histidine kinase. The results significantly limit possible interpretations of histidine phosphorylation on histone H4 in vivo and provide a new, sharper focus for future work. In addition, a polynucleotide kinase activity was identified in the Physarum extracts.
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PMID:Studies of histidine phosphorylation by a nuclear protein histidine kinase show that histidine-75 in histone H4 is masked in nucleosome core particles and in chromatin. 264 23

A high salt nuclear extract from the true slime mold Physarum polycephalum was used as a source of kinase activity for the incubation of calf thymus histones with [gamma-32P]ATP. A major proportion of the 32P incorporated into histones was acid-labile and alkali-stable. The nature of the alkali-stable phosphorylated component was analyzed by subjecting the phosphorylated protein to total alkaline hydrolysis and separating the resultant phosphoamino acids by anion exchange chromatography. The 32P-labeled material co-chromatographed with phosphohistidine standards and did not co-chromatograph with phosphoserine, phosphothreonine, or phosphotyrosine standards. In similar experiments using reversed phase high-performance liquid chromatography to separate the phosphoamino acids, the 32P-labeled phosphoamino acid behaved like the 1-isomer of phosphohistidine, in not being retained by the column, and unlike 3-phosphohistidine, phosphoserine, phosphothreonine, phosphotyrosine, and phosphoarginine, which were all retained on the column. Histone H4 was a good substrate for the histidine kinase activity and the location of the phosphorylated histidine residue was probed by peptide mapping using chymotrypsin or V8 protease. Both maps were consistent with labeling of histidine 75 and inconsistent with labeling of histidine 18. The data show that Physarum nuclei contain a major kinase activity which produces phosphohistidine. The methods we have developed for studying this kinase activity provide the basis for a complete characterization of the structure and function of the Physarum enzyme and can be applied to the study of similar kinase activities in other systems.
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PMID:Phosphorylation of histidine in proteins by a nuclear extract of Physarum polycephalum plasmodia. 406 4

Protein phosphorylation is a vital process in the regulation of mammalian cell division and the protein kinases that catalyze the phosphorylation of proteins on serine, threonine and tyrosine residues have been well characterized. In contrast, little is known about the kinases involved in protein histidine phosphorylation, which have been described in various mammalian cells that are highly proliferative. Histone H4 histidine kinase (HHK) activity is highly active in regenerating rat liver. Using a novel and specific assay, we demonstrate that it is active in human fetal liver, essentially absent in adult liver and highly expressed in liver tumours. 'Normal' liver surrounding the HCC contains low to undetectable levels of HHK. In a rodent model of chronic liver injury that leads to HCC, its activity is induced. Two lines of evidence suggest that liver progenitor (oval) cells, which populate the liver at early stages following induction of liver damage are responsible for the increased activity. Purified oval cells, as well as cell lines established from primary cultures of oval cells express high levels of HHK. We propose that the pattern of expression of histone H4 histidine kinase activity justifies its classification as an oncodevelopmental marker and suggest it may be useful as a diagnostic marker for hepatocellular carcinoma as well for identifying preneoplastic lesions.
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PMID:Histone H4 histidine kinase displays the expression pattern of a liver oncodevelopmental marker. 1524 May 7

Protein phosphorylation is one of the most ubiquitous and important types of post-translational modification for the regulation of cell function. The importance of two-component histidine kinases in bacteria, fungi and plants has long been recognised. In mammals, the regulatory roles of serine/threonine and tyrosine kinases have attracted most attention. However, the existence of histidine kinases in mammalian cells has been known for many years, although little is still understood about their biological roles by comparison with the hydroxyamino acid kinases. In addition, with the exception of NDP kinase, other mammalian histidine kinases remain to be identified and characterised. NDP kinase is a multifunctional enzyme that appears to act as a protein histidine kinase and as such, to regulate the activation of some G-proteins. Histone H4 histidine kinase activity has been shown to correlate with cellular proliferation and there is evidence that it is an oncodevelopmental marker in liver. This review mainly concentrates on describing recent research on these two types of histidine kinase. Developments in methods for the detection and assay of histidine kinases, including mass spectrometric methods for the detection of phosphohistidines in proteins and in-gel kinase assays for histone H4 histidine kinases, are described. Little is known about inhibitors of mammalian histidine kinases, although there is much interest in two-component histidine kinase inhibitors as potential antibiotics. The inhibition of a histone H4 histidine kinase by genistein is described and that of two-component histidine kinase inhibitors of structurally-related mammalian protein kinases. In addition, recent findings concerning mammalian protein histidine phosphatases are briefly described.
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PMID:Mammalian histidine kinases. 1618 7