The Analysis of Estrogen-Degrading and Functional Metabolism Genes in Rhodococcus equi DSSKP-R-001

The Analysis of Estrogen-Degrading and Functional Metabolism Genes in Rhodococcus equi DSSKP-R-001

Estrogen contamination is recognized as one of the most serious environmental problems, causing widespread concern worldwide. Environmental estrogens are mainly derived from human and vertebrate excretion, drugs, and agricultural activities. The use of microorganisms is currently the most economical...

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Main Authors: Kejian Tian, Fanxing Meng, Qi Meng, Yan Gao, Lili Zhang, Le Wang, Yuqing Wang, Xue Li, Hongliang Huo
Format: Article
Language:English
Published: Hindawi Limited 2020-01-01
Series:International Journal of Genomics
Online Access:http://dx.doi.org/10.1155/2020/9369182
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spelling doaj-d8d49b37e2fa4be5b2a9b70f3d9851942020-11-25T03:18:58ZengHindawi LimitedInternational Journal of Genomics2314-436X2314-43782020-01-01202010.1155/2020/93691829369182The Analysis of Estrogen-Degrading and Functional Metabolism Genes in Rhodococcus equi DSSKP-R-001Kejian Tian0Fanxing Meng1Qi Meng2Yan Gao3Lili Zhang4Le Wang5Yuqing Wang6Xue Li7Hongliang Huo8School of Environment, Northeast Normal University, No. 2555 Jingyue Avenue, Changchun City, Jilin Province, ChinaSchool of Environment, Northeast Normal University, No. 2555 Jingyue Avenue, Changchun City, Jilin Province, ChinaSchool of Environment, Northeast Normal University, No. 2555 Jingyue Avenue, Changchun City, Jilin Province, ChinaSchool of Life Sciences, Northeast Normal University, No. 5268, Renmin Main Street, Nanguan District, Changchun City, Jilin Province, ChinaSchool of Life Sciences, Northeast Normal University, No. 5268, Renmin Main Street, Nanguan District, Changchun City, Jilin Province, ChinaSchool of Environment, Northeast Normal University, No. 2555 Jingyue Avenue, Changchun City, Jilin Province, ChinaSchool of Life Sciences, Northeast Normal University, No. 5268, Renmin Main Street, Nanguan District, Changchun City, Jilin Province, ChinaSchool of Environment, Northeast Normal University, No. 2555 Jingyue Avenue, Changchun City, Jilin Province, ChinaSchool of Environment, Northeast Normal University, No. 2555 Jingyue Avenue, Changchun City, Jilin Province, ChinaEstrogen contamination is recognized as one of the most serious environmental problems, causing widespread concern worldwide. Environmental estrogens are mainly derived from human and vertebrate excretion, drugs, and agricultural activities. The use of microorganisms is currently the most economical and effective method for biodegradation of environmental estrogens. Rhodococcus equi DSSKP-R-001 (R-001) has strong estrogen-degrading capabilities. Our study indicated that R-001 can use different types of estrogen as its sole carbon source for growth and metabolism, with final degradation rates above 90%. Transcriptome analysis showed that 720 (E1), 983 (E2), and 845 (EE2) genes were significantly upregulated in the estrogen-treated group compared with the control group, and 270 differentially expressed genes (DEGs) were upregulated across all treatment groups. These DEGs included ABC transporters; estrogen-degrading genes, including those that perform initial oxidation and dehydrogenation reactions and those that further degrade the resulting substrates into small molecules; and metabolism genes that complete the intracellular transformation and utilization of estrogen metabolites through biological processes such as amino acid metabolism, lipid metabolism, carbohydrate metabolism, and the tricarboxylic acid cycle. In summary, the biodegradation of estrogens is coordinated by a metabolic network of estrogen-degrading enzymes, transporters, metabolic enzymes, and other coenzymes. In this study, the metabolic mechanisms by which Rhodococcus equi R-001 degrades various estrogens were analyzed for the first time. A new pollutant metabolism system is outlined, providing a starting point for the construction of engineered estrogen-degrading bacteria.http://dx.doi.org/10.1155/2020/9369182
collection DOAJ
language English
format Article
sources DOAJ
author Kejian Tian
Fanxing Meng
Qi Meng
Yan Gao
Lili Zhang
Le Wang
Yuqing Wang
Xue Li
Hongliang Huo
spellingShingle Kejian Tian
Fanxing Meng
Qi Meng
Yan Gao
Lili Zhang
Le Wang
Yuqing Wang
Xue Li
Hongliang Huo
The Analysis of Estrogen-Degrading and Functional Metabolism Genes in Rhodococcus equi DSSKP-R-001
International Journal of Genomics
author_facet Kejian Tian
Fanxing Meng
Qi Meng
Yan Gao
Lili Zhang
Le Wang
Yuqing Wang
Xue Li
Hongliang Huo
author_sort Kejian Tian
title The Analysis of Estrogen-Degrading and Functional Metabolism Genes in Rhodococcus equi DSSKP-R-001
title_short The Analysis of Estrogen-Degrading and Functional Metabolism Genes in Rhodococcus equi DSSKP-R-001
title_full The Analysis of Estrogen-Degrading and Functional Metabolism Genes in Rhodococcus equi DSSKP-R-001
title_fullStr The Analysis of Estrogen-Degrading and Functional Metabolism Genes in Rhodococcus equi DSSKP-R-001
title_full_unstemmed The Analysis of Estrogen-Degrading and Functional Metabolism Genes in Rhodococcus equi DSSKP-R-001
title_sort analysis of estrogen-degrading and functional metabolism genes in rhodococcus equi dsskp-r-001
publisher Hindawi Limited
series International Journal of Genomics
issn 2314-436X
2314-4378
publishDate 2020-01-01
description Estrogen contamination is recognized as one of the most serious environmental problems, causing widespread concern worldwide. Environmental estrogens are mainly derived from human and vertebrate excretion, drugs, and agricultural activities. The use of microorganisms is currently the most economical and effective method for biodegradation of environmental estrogens. Rhodococcus equi DSSKP-R-001 (R-001) has strong estrogen-degrading capabilities. Our study indicated that R-001 can use different types of estrogen as its sole carbon source for growth and metabolism, with final degradation rates above 90%. Transcriptome analysis showed that 720 (E1), 983 (E2), and 845 (EE2) genes were significantly upregulated in the estrogen-treated group compared with the control group, and 270 differentially expressed genes (DEGs) were upregulated across all treatment groups. These DEGs included ABC transporters; estrogen-degrading genes, including those that perform initial oxidation and dehydrogenation reactions and those that further degrade the resulting substrates into small molecules; and metabolism genes that complete the intracellular transformation and utilization of estrogen metabolites through biological processes such as amino acid metabolism, lipid metabolism, carbohydrate metabolism, and the tricarboxylic acid cycle. In summary, the biodegradation of estrogens is coordinated by a metabolic network of estrogen-degrading enzymes, transporters, metabolic enzymes, and other coenzymes. In this study, the metabolic mechanisms by which Rhodococcus equi R-001 degrades various estrogens were analyzed for the first time. A new pollutant metabolism system is outlined, providing a starting point for the construction of engineered estrogen-degrading bacteria.
url http://dx.doi.org/10.1155/2020/9369182
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