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In vitro Edwardsiella piscicida CK108 Transcriptome Profiles with Subinhibitory Concentrations of Phenol and Formalin Reveal New Insights into Bacterial Pathogenesis Mechanisms
Phenol and formalin are major water pollutants that are frequently discharged into the aquatic milieu. These chemicals can affect broad domains of life, including microorganisms. Aquatic pollutants, unlike terrestrial pollutants, are easily diluted in water environments and exist at a sub-inhibitory...
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| Published in: | Microorganisms (Basel) 2020-07, Vol.8 (7), p.1068 |
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| creator | Yoon, Ju Bin Hwang, Sungmin Baek, Se-Won Lee, Seungki Bang, Woo Young Moon, Ki Hwan |
| description | Phenol and formalin are major water pollutants that are frequently discharged into the aquatic milieu. These chemicals can affect broad domains of life, including microorganisms. Aquatic pollutants, unlike terrestrial pollutants, are easily diluted in water environments and exist at a sub-inhibitory concentration (sub-IC), thus not directly inhibiting bacterial growth. However, they can modulate gene expression profiles. The sub-IC values of phenol and formalin were measured by minimal inhibitory concentration (MIC) assay to be 0.146% (1.3 mM) and 0.0039% (0.38 mM), respectively, in Edwardsiella piscicida CK108, a Gram-negative fish pathogen. We investigated the differentially expressed genes (DEG) by RNA-seq when the cells were exposed to the sub-ICs of phenol and formalin. DEG analyses revealed that genes involved in major virulence factors (type I fimbriae, flagella, type III and type VI secretion system) and various cellular pathways (energy production, amino acid synthesis, carbohydrate metabolism and two-component regulatory systems) were up- or downregulated by both chemicals. The genome-wide gene expression data corresponded to the results of a quantitative reverse complementary-PCR and motility assay. This study not only provides insight into how a representative fish pathogen, E. piscicida CK108, responds to the sub-ICs of phenol and formalin but also shows the importance of controlling chemical pollutants in aquatic environments. |
| doi_str_mv | 10.3390/microorganisms8071068 |
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These chemicals can affect broad domains of life, including microorganisms. Aquatic pollutants, unlike terrestrial pollutants, are easily diluted in water environments and exist at a sub-inhibitory concentration (sub-IC), thus not directly inhibiting bacterial growth. However, they can modulate gene expression profiles. The sub-IC values of phenol and formalin were measured by minimal inhibitory concentration (MIC) assay to be 0.146% (1.3 mM) and 0.0039% (0.38 mM), respectively, in Edwardsiella piscicida CK108, a Gram-negative fish pathogen. We investigated the differentially expressed genes (DEG) by RNA-seq when the cells were exposed to the sub-ICs of phenol and formalin. DEG analyses revealed that genes involved in major virulence factors (type I fimbriae, flagella, type III and type VI secretion system) and various cellular pathways (energy production, amino acid synthesis, carbohydrate metabolism and two-component regulatory systems) were up- or downregulated by both chemicals. The genome-wide gene expression data corresponded to the results of a quantitative reverse complementary-PCR and motility assay. This study not only provides insight into how a representative fish pathogen, E. piscicida CK108, responds to the sub-ICs of phenol and formalin but also shows the importance of controlling chemical pollutants in aquatic environments.</description><identifier>ISSN: 2076-2607</identifier><identifier>EISSN: 2076-2607</identifier><identifier>DOI: 10.3390/microorganisms8071068</identifier><identifier>PMID: 32709101</identifier><language>eng</language><publisher>Basel: MDPI AG</publisher><subject>Amino acids ; Aquaculture ; Aquatic environment ; Aquatic microorganisms ; Carbohydrate metabolism ; Carbohydrates ; Cell growth ; Cellular manufacture ; Chemical pollutants ; Chemical pollution ; Chemicals ; Deoxyribonucleic acid ; differentially expressed genes ; DNA ; Edwardsiella piscicida ; Enterobacter ; Enterobacteriaceae ; Fish ; fish pathogen ; Flagella ; Formaldehyde ; formalin ; Gene expression ; Genes ; Genetic aspects ; Genetic transcription ; Genomes ; Metabolism ; Microorganisms ; Minimum inhibitory concentration ; Motility ; Observations ; Pathogenesis ; Pathogens ; phenol ; Phenols ; Pili ; Pollutants ; Pollution control ; Ribonucleic acid ; RNA ; sub-inhibitory concentration ; Virulence ; Virulence factors ; Water pollution</subject><ispartof>Microorganisms (Basel), 2020-07, Vol.8 (7), p.1068</ispartof><rights>COPYRIGHT 2020 MDPI AG</rights><rights>2020. 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These chemicals can affect broad domains of life, including microorganisms. Aquatic pollutants, unlike terrestrial pollutants, are easily diluted in water environments and exist at a sub-inhibitory concentration (sub-IC), thus not directly inhibiting bacterial growth. However, they can modulate gene expression profiles. The sub-IC values of phenol and formalin were measured by minimal inhibitory concentration (MIC) assay to be 0.146% (1.3 mM) and 0.0039% (0.38 mM), respectively, in Edwardsiella piscicida CK108, a Gram-negative fish pathogen. We investigated the differentially expressed genes (DEG) by RNA-seq when the cells were exposed to the sub-ICs of phenol and formalin. DEG analyses revealed that genes involved in major virulence factors (type I fimbriae, flagella, type III and type VI secretion system) and various cellular pathways (energy production, amino acid synthesis, carbohydrate metabolism and two-component regulatory systems) were up- or downregulated by both chemicals. The genome-wide gene expression data corresponded to the results of a quantitative reverse complementary-PCR and motility assay. 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These chemicals can affect broad domains of life, including microorganisms. Aquatic pollutants, unlike terrestrial pollutants, are easily diluted in water environments and exist at a sub-inhibitory concentration (sub-IC), thus not directly inhibiting bacterial growth. However, they can modulate gene expression profiles. The sub-IC values of phenol and formalin were measured by minimal inhibitory concentration (MIC) assay to be 0.146% (1.3 mM) and 0.0039% (0.38 mM), respectively, in Edwardsiella piscicida CK108, a Gram-negative fish pathogen. We investigated the differentially expressed genes (DEG) by RNA-seq when the cells were exposed to the sub-ICs of phenol and formalin. DEG analyses revealed that genes involved in major virulence factors (type I fimbriae, flagella, type III and type VI secretion system) and various cellular pathways (energy production, amino acid synthesis, carbohydrate metabolism and two-component regulatory systems) were up- or downregulated by both chemicals. The genome-wide gene expression data corresponded to the results of a quantitative reverse complementary-PCR and motility assay. This study not only provides insight into how a representative fish pathogen, E. piscicida CK108, responds to the sub-ICs of phenol and formalin but also shows the importance of controlling chemical pollutants in aquatic environments.</abstract><cop>Basel</cop><pub>MDPI AG</pub><pmid>32709101</pmid><doi>10.3390/microorganisms8071068</doi><orcidid>https://orcid.org/0000-0001-5629-1140</orcidid><orcidid>https://orcid.org/0000-0002-5035-4945</orcidid><orcidid>https://orcid.org/0000-0002-2162-4010</orcidid><oa>free_for_read</oa></addata></record> |
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| subjects | Amino acids Aquaculture Aquatic environment Aquatic microorganisms Carbohydrate metabolism Carbohydrates Cell growth Cellular manufacture Chemical pollutants Chemical pollution Chemicals Deoxyribonucleic acid differentially expressed genes DNA Edwardsiella piscicida Enterobacter Enterobacteriaceae Fish fish pathogen Flagella Formaldehyde formalin Gene expression Genes Genetic aspects Genetic transcription Genomes Metabolism Microorganisms Minimum inhibitory concentration Motility Observations Pathogenesis Pathogens phenol Phenols Pili Pollutants Pollution control Ribonucleic acid RNA sub-inhibitory concentration Virulence Virulence factors Water pollution |
| title | In vitro Edwardsiella piscicida CK108 Transcriptome Profiles with Subinhibitory Concentrations of Phenol and Formalin Reveal New Insights into Bacterial Pathogenesis Mechanisms |
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