Divergent Distribution of the Sensor Kinase CosS in Non-Thermotolerant Campylobacter Species and Its Functional Incompatibility with the Response Regulator CosR of Campylobacter jejuni
Two-component signal transduction systems are commonly composed of a sensor histidine kinase and a cognate response regulator, modulating gene expression in response to environmental changes through a phosphorylation-dependent process. CosR is an OmpR-type response regulator essential for the viabil...
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Public Library of Science
2014
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| Online Access: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3938529/ |
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pubmed-39385292014-03-04 Divergent Distribution of the Sensor Kinase CosS in Non-Thermotolerant Campylobacter Species and Its Functional Incompatibility with the Response Regulator CosR of Campylobacter jejuni Hwang, Sunyoung Miller, William G. Ryu, Sangryeol Jeon, Byeonghwa Research Article Two-component signal transduction systems are commonly composed of a sensor histidine kinase and a cognate response regulator, modulating gene expression in response to environmental changes through a phosphorylation-dependent process. CosR is an OmpR-type response regulator essential for the viability of Campylobacter jejuni, a major foodborne pathogenic species causing human gastroenteritis. Although CosR is a response regulator, its cognate sensor kinase has not been identified in C. jejuni. In this study, DNA sequence analysis of the cosR flanking regions revealed that a gene encoding a putative sensor kinase, which we named cosS, is prevalent in non-thermotolerant Campylobacter spp., but not in thermotolerant campylobacters. Phosphorylation assays indicated that C. fetus CosS rapidly autophosphorylates and then phosphorylates C. fetus CosR, suggesting that the CosRS system constitutes a paired two-component signal transduction system in C. fetus. However, C. fetus CosS does not phosphorylate C. jejuni CosR, suggesting that CosR may have different regulatory cascades between thermotolerant and non-thermotolerant Campylobacter species. Comparison of CosR homolog amino acid sequences showed that the conserved phosphorylation residue (D51), which is present in all non-thermotolerant Campylobacter spp., is absent from the CosR homologs of thermotolerant Campylobacter species. However, C. jejuni CosR was not phosphorylated by C. fetus CosS even after site-directed mutagenesis of N51D, implying that C. jejuni CosR may possibly function phosphorylation-independently. In addition, the results of cosS mutational analysis indicated that CosS is not associated with the temperature dependence of the Campylobacter spp. despite its unique divergent distribution only in non-thermotolerant campylobacters. The findings in this study strongly suggest that thermotolerant and non-thermotolerant Campylobacter spp. have different signal sensing mechanisms associated with the CosR regulation. Public Library of Science 2014-02-28 /pmc/articles/PMC3938529/ /pubmed/24587027 http://dx.doi.org/10.1371/journal.pone.0089774 Text en © 2014 Hwang et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited. |
| repository_type |
Open Access Journal |
| institution_category |
Foreign Institution |
| institution |
US National Center for Biotechnology Information |
| building |
NCBI PubMed |
| collection |
Online Access |
| language |
English |
| format |
Online |
| author |
Hwang, Sunyoung Miller, William G. Ryu, Sangryeol Jeon, Byeonghwa |
| spellingShingle |
Hwang, Sunyoung Miller, William G. Ryu, Sangryeol Jeon, Byeonghwa Divergent Distribution of the Sensor Kinase CosS in Non-Thermotolerant Campylobacter Species and Its Functional Incompatibility with the Response Regulator CosR of Campylobacter jejuni |
| author_facet |
Hwang, Sunyoung Miller, William G. Ryu, Sangryeol Jeon, Byeonghwa |
| author_sort |
Hwang, Sunyoung |
| title |
Divergent Distribution of the Sensor Kinase CosS in Non-Thermotolerant Campylobacter Species and Its Functional Incompatibility with the Response Regulator CosR of Campylobacter jejuni
|
| title_short |
Divergent Distribution of the Sensor Kinase CosS in Non-Thermotolerant Campylobacter Species and Its Functional Incompatibility with the Response Regulator CosR of Campylobacter jejuni
|
| title_full |
Divergent Distribution of the Sensor Kinase CosS in Non-Thermotolerant Campylobacter Species and Its Functional Incompatibility with the Response Regulator CosR of Campylobacter jejuni
|
| title_fullStr |
Divergent Distribution of the Sensor Kinase CosS in Non-Thermotolerant Campylobacter Species and Its Functional Incompatibility with the Response Regulator CosR of Campylobacter jejuni
|
| title_full_unstemmed |
Divergent Distribution of the Sensor Kinase CosS in Non-Thermotolerant Campylobacter Species and Its Functional Incompatibility with the Response Regulator CosR of Campylobacter jejuni
|
| title_sort |
divergent distribution of the sensor kinase coss in non-thermotolerant campylobacter species and its functional incompatibility with the response regulator cosr of campylobacter jejuni |
| description |
Two-component signal transduction systems are commonly composed of a sensor histidine kinase and a cognate response regulator, modulating gene expression in response to environmental changes through a phosphorylation-dependent process. CosR is an OmpR-type response regulator essential for the viability of Campylobacter jejuni, a major foodborne pathogenic species causing human gastroenteritis. Although CosR is a response regulator, its cognate sensor kinase has not been identified in C. jejuni. In this study, DNA sequence analysis of the cosR flanking regions revealed that a gene encoding a putative sensor kinase, which we named cosS, is prevalent in non-thermotolerant Campylobacter spp., but not in thermotolerant campylobacters. Phosphorylation assays indicated that C. fetus CosS rapidly autophosphorylates and then phosphorylates C. fetus CosR, suggesting that the CosRS system constitutes a paired two-component signal transduction system in C. fetus. However, C. fetus CosS does not phosphorylate C. jejuni CosR, suggesting that CosR may have different regulatory cascades between thermotolerant and non-thermotolerant Campylobacter species. Comparison of CosR homolog amino acid sequences showed that the conserved phosphorylation residue (D51), which is present in all non-thermotolerant Campylobacter spp., is absent from the CosR homologs of thermotolerant Campylobacter species. However, C. jejuni CosR was not phosphorylated by C. fetus CosS even after site-directed mutagenesis of N51D, implying that C. jejuni CosR may possibly function phosphorylation-independently. In addition, the results of cosS mutational analysis indicated that CosS is not associated with the temperature dependence of the Campylobacter spp. despite its unique divergent distribution only in non-thermotolerant campylobacters. The findings in this study strongly suggest that thermotolerant and non-thermotolerant Campylobacter spp. have different signal sensing mechanisms associated with the CosR regulation. |
| publisher |
Public Library of Science |
| publishDate |
2014 |
| url |
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3938529/ |
| _version_ |
1612063150916501504 |