Genetic and Biochemical Dissection of a HisKA Domain Identifies Residues Required Exclusively for Kinase and Phosphatase Activities

Abstract: Two-component signal transduction systems, composed of histidine kinases (HK) and response regulators (RR), allow bacteria to respond to diverse environmental stimuli. The HK can control both phosphorylation and subsequent dephosphorylation of its cognate RR. The majority of HKs utilize the HisKA subfamily of dimerization and histidine phosphotransfer (DHp) domains, which contain the phospho-accepting histidine and directly contact the RR. Extensive genetics, biochemistry, and structural biology on several pro… Show more

“…The E/D residue is required for kinase and N/T for phosphatase activities, respectively [64,65]. Experimentally, it was demonstrated that the recombinant cytoplasmic fragment of HaeS uses ATP as the phosphodonor to autophosphorylate the conserved histidine 226 residue, while a recombinant cytoplasmic fragment of HaeS carrying the H226A point mutation was not phosphorylated.…”

Two-component signal transduction systems in oral bacteria

“…The E/D residue is required for kinase and N/T for phosphatase activities, respectively [64,65]. Experimentally, it was demonstrated that the recombinant cytoplasmic fragment of HaeS uses ATP as the phosphodonor to autophosphorylate the conserved histidine 226 residue, while a recombinant cytoplasmic fragment of HaeS carrying the H226A point mutation was not phosphorylated.…”

Two-component signal transduction systems in oral bacteria

“…We were unable to perform the converse experiment by selectively eliminating phosphatase activity. In some sensor kinases it has been shown that within a conserved E/DxxT motif of the DHp domain, the Thr residue is critical for phosphatase activity (Huynh & Stewart, 2011;Willett & Kirby, 2012). FeuQ shares this conserved motif, but mutations to the conserved Thr did not give a phenotype consistent with eliminated phosphatase activity (data not shown).…”

“…We performed random mutagenesis of feuQ searching for 'FeuN-insensitive' (constitutively activating) and 'FeuN-mimicking' (constitutively inhibiting) alleles that might reveal domains of the FeuQ protein that are important for potential FeuN interaction and toggling between kinase and phosphatase activities. We expected to find mutations leading to each phenotype in the HAMP, DHp and CA domains, as these regions are known to be involved in SK signal integration (Atkinson & Ninfa, 1993;Hsing et al, 1998;Willett & Kirby, 2012). We suspected that mutations might also correspond to the FeuQ periplasmic domain, where FeuQ and FeuN are most likely to directly interact.…”

Genetic analysis of signal integration by the Sinorhizobium meliloti sensor kinase FeuQ

“…Proteins were radiolabeled with acetyl phosphate ([ 32 P]AcP) as described previously (10,24). Briefly, [ 32 P]AcP was generated using E. coli acetate kinase (Sigma).…”

Chemosensory Regulation of a HEAT-Repeat Protein Couples Aggregation and Sporulation in Myxococcus xanthus