Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.13.3 (histidine kinase)
 2,405 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Competence for genetic transformation in certain species of streptococci has been known for many years to be induced by a secreted protease-sensitive pheromone, referred to as the competence factor or activator, which acts as a quorum-sensing signal to co-ordinate expression of late competence genes. We recently reported identification of the pheromone of Streptococcus pneumoniae strain Rx as a small unmodified peptide, which was termed competence-stimulating peptide (CSP). By identifying the gene (comC) encoding the Rx CSP we were able to show that it is synthesized as a precursor peptide containing an N-terminal double-glycine type leader. In the present work, we describe two alleles of the corresponding gene from Streptococcus gordonii strains Challis and NCTC 7865, which are strains with distinct competence pheromones and corresponding specific pheromone reactivities. In addition, the nucleic acid sequences of two genes located downstream of comC were determined; interestingly, these genes encode a two-component signal transduction system. We therefore speculated that their products, a histidine kinase (ComD) and its cognate response regulator (ComE), act downstream of the CSP in competence regulation. By tracing the CSP specificity of the competence response in these strains to strain-specific alleles of comD, we obtained evidence demonstrating that the histidine kinase ComD is the competence-pheromone receptor.
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PMID:Identification of the streptococcal competence-pheromone receptor. 887 47

Production of the bacteriocin sakacin P by Lactobacillus sake LTH673 is dependent on a secreted 19-residue peptide pheromone (IP-673). The gene encoding IP-673 (sppIP) was identified and sequenced. SppIP was shown to be co-transcribed with genes encoding a histidine kinase (sppK) and a response regulator (sppR) typical for signal transduction in bacteria. Further sequencing and transcription studies have shown that IP-673 induces transcription of its own gene and of what are often considered to be all genes necessary for bacteriocin production and immunity. Studies with a reporter gene showed that the promoter in front of the sakacin P structural gene (sppA) is strictly regulated. The promoter in front of sppIP turned out to be less strictly regulated, and low basal promoter activity could be detected in uninduced cells. Bacteriocin production in Bac isolates of L. plantarum C11 could be induced by the non-cognate IP-673 only after the introduction of sppK, indicating that sppK encodes the pheromone receptor. These results show that bacteriocin production in lactobacilli is regulated using a short, strain-specific peptide pheromone. Growth conditions were shown to have considerable effects on the functionality of this regulatory mechanism.
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PMID:Pheromone-induced production of antimicrobial peptides in Lactobacillus. 938 59