Viable but nonculturable state of yeast candida sp. strain LN1 induced by high phenol concentrations
Microbial degradation plays an important role in environmental remediation. However, most microorganisms' pollutant-degrading capabilities are weakened due to their entry into a viable but nonculturable (VBNC) state. Although there is some evidence for the VBNC state of pollutant-degrading bact...
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sg-ntu-dr.10356-1537122022-01-07T07:54:20Z Viable but nonculturable state of yeast candida sp. strain LN1 induced by high phenol concentrations Xie, Mengqi Xu, Luning Zhang, Rong Zhou, Yan Xiao, Yeyuan Su, Xiaomei Shen, Chaofeng Sun, Faqian Muhammad Zaffar Hashmi Lin, Hongjun Chen, Jianrong School of Civil and Environmental Engineering Advanced Environmental Biotechnology Centre (AEBC) Nanyang Environment and Water Research Institute Engineering::Civil engineering Gene Expression Phenol Biodegradation Microbial degradation plays an important role in environmental remediation. However, most microorganisms' pollutant-degrading capabilities are weakened due to their entry into a viable but nonculturable (VBNC) state. Although there is some evidence for the VBNC state of pollutant-degrading bacteria, limited studies have been conducted to investigate the VBNC state of pollutant degraders among fungi. In this work, the morphological, physiological, and molecular changes of phenol-degrading yeast strain LN1 exposed to high phenol concentrations were investigated. The results confirmed that Candida sp. strain LN1, which possessed a highly efficient capability of degrading 1,000 mg/liter of phenol as well as a high potential for aromatic compound degradation, entered into the VBNC state after 14 h of incubation with 6,000 mg/liter phenol. Resuscitation of VBNC cells can restore their phenol degradation performance. Compared to normal cells, significant dwarfing, surface damage, and physiological changes of VBNC cells were observed. Molecular analysis indicated that downregulated genes were related to the oxidative stress response, xenobiotic degradation, and carbohydrate and energy metabolism, whereas upregulated genes were related to RNA polymerase, amino acid metabolism, and DNA replication and repair. This report revealed that a pollutant-degrading yeast strain entered into the VBNC state under high concentrations of contaminants, providing new insights into its survival status and bioremediation potential under stress. IMPORTANCE The viable but nonculturable (VBNC) state is known to affect the culturability and activity of microorganisms. However, limited studies have been conducted to investigate the VBNC state of other pollutant degraders, such as fungi. In this study, the VBNC state of a phenol-degrading yeast strain was discovered. In addition, comprehensive analyses of the morphological, physiological, and molecular changes of VBNC cells were performed. This study provides new insight into the VBNC state of pollutant degraders and how they restored the activities that were inhibited under stressful conditions. Enhanced bioremediation performance of indigenous microorganisms could be expected by preventing and controlling the formation of the VBNC state. We gratefully acknowledge the financial support provided by the National Natural Science Foundation of China (grant no. 41701354 and 51808501) and the Natural Science Foundation of Zhejiang Province, China (grant no. LY21D010006). 2022-01-07T07:54:20Z 2022-01-07T07:54:20Z 2021 Journal Article Xie, M., Xu, L., Zhang, R., Zhou, Y., Xiao, Y., Su, X., Shen, C., Sun, F., Muhammad Zaffar Hashmi, Lin, H. & Chen, J. (2021). Viable but nonculturable state of yeast candida sp. strain LN1 induced by high phenol concentrations. Applied and Environmental Microbiology, 87(18), e01110-21-. https://dx.doi.org/10.1128/AEM.01110-21 0099-2240 https://hdl.handle.net/10356/153712 10.1128/AEM.01110-21 34232723 2-s2.0-85115430170 18 87 e01110-21 en Applied and Environmental Microbiology © 2021 American Society for Microbiology. All Rights Reserved. |
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Engineering::Civil engineering Gene Expression Phenol Biodegradation Xie, Mengqi Xu, Luning Zhang, Rong Zhou, Yan Xiao, Yeyuan Su, Xiaomei Shen, Chaofeng Sun, Faqian Muhammad Zaffar Hashmi Lin, Hongjun Chen, Jianrong Viable but nonculturable state of yeast candida sp. strain LN1 induced by high phenol concentrations |
| description |
Microbial degradation plays an important role in environmental remediation. However, most microorganisms' pollutant-degrading capabilities are weakened due to their entry into a viable but nonculturable (VBNC) state. Although there is some evidence for the VBNC state of pollutant-degrading bacteria, limited studies have been conducted to investigate the VBNC state of pollutant degraders among fungi. In this work, the morphological, physiological, and molecular changes of phenol-degrading yeast strain LN1 exposed to high phenol concentrations were investigated. The results confirmed that Candida sp. strain LN1, which possessed a highly efficient capability of degrading 1,000 mg/liter of phenol as well as a high potential for aromatic compound degradation, entered into the VBNC state after 14 h of incubation with 6,000 mg/liter phenol. Resuscitation of VBNC cells can restore their phenol degradation performance. Compared to normal cells, significant dwarfing, surface damage, and physiological changes of VBNC cells were observed. Molecular analysis indicated that downregulated genes were related to the oxidative stress response, xenobiotic degradation, and carbohydrate and energy metabolism, whereas upregulated genes were related to RNA polymerase, amino acid metabolism, and DNA replication and repair. This report revealed that a pollutant-degrading yeast strain entered into the VBNC state under high concentrations of contaminants, providing new insights into its survival status and bioremediation potential under stress. IMPORTANCE The viable but nonculturable (VBNC) state is known to affect the culturability and activity of microorganisms. However, limited studies have been conducted to investigate the VBNC state of other pollutant degraders, such as fungi. In this study, the VBNC state of a phenol-degrading yeast strain was discovered. In addition, comprehensive analyses of the morphological, physiological, and molecular changes of VBNC cells were performed. This study provides new insight into the VBNC state of pollutant degraders and how they restored the activities that were inhibited under stressful conditions. Enhanced bioremediation performance of indigenous microorganisms could be expected by preventing and controlling the formation of the VBNC state. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Xie, Mengqi Xu, Luning Zhang, Rong Zhou, Yan Xiao, Yeyuan Su, Xiaomei Shen, Chaofeng Sun, Faqian Muhammad Zaffar Hashmi Lin, Hongjun Chen, Jianrong |
| format |
Article |
| author |
Xie, Mengqi Xu, Luning Zhang, Rong Zhou, Yan Xiao, Yeyuan Su, Xiaomei Shen, Chaofeng Sun, Faqian Muhammad Zaffar Hashmi Lin, Hongjun Chen, Jianrong |
| author_sort |
Xie, Mengqi |
| title |
Viable but nonculturable state of yeast candida sp. strain LN1 induced by high phenol concentrations |
| title_short |
Viable but nonculturable state of yeast candida sp. strain LN1 induced by high phenol concentrations |
| title_full |
Viable but nonculturable state of yeast candida sp. strain LN1 induced by high phenol concentrations |
| title_fullStr |
Viable but nonculturable state of yeast candida sp. strain LN1 induced by high phenol concentrations |
| title_full_unstemmed |
Viable but nonculturable state of yeast candida sp. strain LN1 induced by high phenol concentrations |
| title_sort |
viable but nonculturable state of yeast candida sp. strain ln1 induced by high phenol concentrations |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/153712 |
| _version_ |
1722355342057144320 |