Histone H4 histidine kinase displays the expression pattern of a liver oncodevelopmental marker.

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.

Proteomics approach to identifying ATP-covalently modified proteins.

This study aims to investigate functionally similar proteins based on their capacity to remain bound to ATP under stringent resolving conditions. Using two-dimensional gel electrophoresis and capillary liquid chromatography on-line mass spectrometry, we have identified several mammalian and E. coli proteins that appear to covalently bind ATP.

Detection of histidine kinases via a filter-based assay and reverse-phase thin-layer chromatographic phosphoamino acid analysis.

The methods that detect histidine phosphorylation have largely been either laborious or difficult to apply quantitatively. The major difficulty in assessing for its presence is its alkali-stable, acid-labile nature. While an assay that detects alkali-stable phosphorylation has been developed, it does not distinguish phosphohistidine from other alkali-stable phosphoamino acids.

Mammalian protein histidine kinases.

The existence of protein kinases, known as histidine kinases, which phosphorylate their substrates on histidine residues has been well documented in bacteria and also in lower eukaryotes such as yeast and plants. Their biological roles in cellular signalling pathways within these organisms have also been well characterised. The evidence for the existence of such enzymes in mammalian cells is much less well established and little has been determined about their cellular functions.