Gene/Protein
Disease
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Enzyme
Compound
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Gene/Protein
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Target Concepts:
Gene/Protein
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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)
The promoters in the nisin gene cluster nisABTCIPRKFEG of Lactococcus lactis were characterized by primer extension and transcriptional fusions to the Escherichia coli promoterless
beta-glucuronidase
gene (gusA). Three promoters preceding the nisA, nisR, and nisF genes, which all give rise to gusA expression in the nisin-producing strain L. lactis NZ9700, were identified. The transcriptional autoregulation of nisA by signal transduction involving the sensor
histidine kinase
NisK and the response regulator NisR has been demonstrated previously (0. P. Kuipers, M. M. Beerthuyzen, P. G. G. A. de Ruyter, E. J. Luesink, and W. M. de Vos, J. Biol. Chem. 270: 27299-27304, 1995), and therefore the possible nisin-dependent expression of gusA under control of the nisR and nisF promoters was also investigated. The nisR promoter was shown to direct nisin-independent gusA expression in L. lactis MG 1363, which is a nisin-transposon- and plasmid-free strain. L. lactis NZ9800, which does not produce nisin because of a deletion in the nisA gene, containing the nisF-gusA fusion plasmid, gave rise to
beta-glucuronidase
production only after induction by nisin. A similar regulation was found in L. lactis NZ3900, which contains a single copy of the nisR and nisK genes but no other genes of the nisin gene cluster. In contrast, when the nisK gene was disrupted, no
beta-glucuronidase
activity directed by the nisF promoter could be detected even after induction with nisin. These results show that, like the nisA promoter, the nisF promoter is nisin inducible. The nisF and nisA promoter sequences have significant similarities and contain a conserved region that could be important for transcriptional control.
...
PMID:Functional analysis of promoters in the nisin gene cluster of Lactococcus lactis. 865 38
Water deficit and the resulting osmotic stress affect plant growth. To understand how plant cells monitor and respond to osmotic change from water stress, we isolated a cDNA from dehydrated Arabidopsis plants. This cDNA encodes a novel hybrid-type
histidine kinase
, ATHK1. Restriction fragment length polymorphism mapping showed that the ATHK1 gene is on chromosome 2. The predicted ATHK1 protein has two putative transmembrane regions in the N-terminal half and has structural similarity to the yeast osmosensor synthetic lethal of N-end rule 1 (SLN1). The ATHK1 transcript was more abundant in roots than other tissues under normal growth conditions and accumulated under conditions of high or low osmolarity. Histochemical analysis of
beta-glucuronidase
activities driven by the ATHK1 promoter further indicates that the ATHK1 gene is transcriptionally upregulated in response to changes in external osmolarity. Overexpression of the ATHK1 cDNA suppressed the lethality of the temperature-sensitive osmosensing-defective yeast mutant sln1-ts. By contrast, ATHK1 cDNAs in which conserved His or Asp residues had been substituted failed to complement the sln1-ts mutant, indicating that ATHK1 functions as a
histidine kinase
. Introduction of the ATHK1 cDNA into the yeast double mutant sln1Delta sho1Delta, which lacks two osmosensors, suppressed lethality in high-salinity media and activated the high-osmolarity glycerol response 1 (HOG1) mitogen-activated protein kinase (MAPK). These results imply that ATHK1 functions as an osmosensor and transmits the stress signal to a downstream MAPK cascade.
...
PMID:A transmembrane hybrid-type histidine kinase in Arabidopsis functions as an osmosensor. 1048 40
