Two dcm gene clusters essential for the degradation of diclofop-methyl in a microbial consortium of rhodococcus sp. JT-3 and brevundimonas sp. JT-9
The metabolism of widely used aryloxyphenoxypropionate herbicides has been extensively studied in microbes. However, the information on the degradation of diclofop-methyl (DCM) is limited, with no genetic and biochemical investigation reported. The consortium L1 of Rhodococcus sp. JT-3 and Brevundim...
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sg-ntu-dr.10356-1426062020-06-25T05:23:38Z Two dcm gene clusters essential for the degradation of diclofop-methyl in a microbial consortium of rhodococcus sp. JT-3 and brevundimonas sp. JT-9 Zhang, Hui Yu, Ting Li, Jie Wang, Yi-Ran Wang, Guang-Li Li, Feng Liu, Yuan Xiong, Ming-Hua Ma, Ying-Qun Advanced Environmental Biotechnology Centre Nanyang Environment and Water Research Institute Science::Chemistry Diclofop-methyl Microbial Consortium The metabolism of widely used aryloxyphenoxypropionate herbicides has been extensively studied in microbes. However, the information on the degradation of diclofop-methyl (DCM) is limited, with no genetic and biochemical investigation reported. The consortium L1 of Rhodococcus sp. JT-3 and Brevundimonas sp. JT-9 was able to degrade DCM through a synergistic metabolism. To elaborate the molecular mechanism of DCM degradation, the metabolic pathway for DCM was first investigated. DCM was initially transformed by strain JT-3 to diclofop acid and then by strain JT-9 to 2-(4-hydroxyphenoxy) propionic acid as well as 2,4-dichlorophenol. Subsequently, the two dcm gene clusters, dcmAE and dcmB1B2CD, involved in further degradation of 2,4-dichlorophenol, were successfully cloned from strain JT-3, and the functions of each gene product were identified. DcmA, a glutathione-dependent dehalogenase, was responsible for catalyzing the reductive dehalogenation of 2,4-dichlorophenol to 4-chlorophenol, which was then converted by the two-component monooxygenase DcmB1B2 to 4-chlorocatechol as the ring cleavage substrate of the dioxygenase DcmC. In this study, the overall DCM degradation pathway of the consortium L1 was proposed and, particularly, the lower part on the DCP degradation was characterized at the genetic and biochemical levels. 2020-06-25T05:23:38Z 2020-06-25T05:23:38Z 2018 Journal Article Zhang, H., Yu, T., Li, J., Wang, Y.-R., Wang, G.-L., Li, F., . . . Ma, Y.-Q. (2018). Two dcm gene clusters essential for the degradation of diclofop-methyl in a microbial consortium of Rhodococcus sp. JT-3 and brevundimonas sp. JT-9. Journal of agricultural and food chemistry, 66(46), 12217–12226. doi:10.1021/acs.jafc.8b05382 0021-8561 https://hdl.handle.net/10356/142606 10.1021/acs.jafc.8b05382 30375865 2-s2.0-85056572520 46 66 12217 12226 en Journal of agricultural and food chemistry © 2018 American Chemical Society. All rights reserved. |
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Science::Chemistry Diclofop-methyl Microbial Consortium Zhang, Hui Yu, Ting Li, Jie Wang, Yi-Ran Wang, Guang-Li Li, Feng Liu, Yuan Xiong, Ming-Hua Ma, Ying-Qun Two dcm gene clusters essential for the degradation of diclofop-methyl in a microbial consortium of rhodococcus sp. JT-3 and brevundimonas sp. JT-9 |
| description |
The metabolism of widely used aryloxyphenoxypropionate herbicides has been extensively studied in microbes. However, the information on the degradation of diclofop-methyl (DCM) is limited, with no genetic and biochemical investigation reported. The consortium L1 of Rhodococcus sp. JT-3 and Brevundimonas sp. JT-9 was able to degrade DCM through a synergistic metabolism. To elaborate the molecular mechanism of DCM degradation, the metabolic pathway for DCM was first investigated. DCM was initially transformed by strain JT-3 to diclofop acid and then by strain JT-9 to 2-(4-hydroxyphenoxy) propionic acid as well as 2,4-dichlorophenol. Subsequently, the two dcm gene clusters, dcmAE and dcmB1B2CD, involved in further degradation of 2,4-dichlorophenol, were successfully cloned from strain JT-3, and the functions of each gene product were identified. DcmA, a glutathione-dependent dehalogenase, was responsible for catalyzing the reductive dehalogenation of 2,4-dichlorophenol to 4-chlorophenol, which was then converted by the two-component monooxygenase DcmB1B2 to 4-chlorocatechol as the ring cleavage substrate of the dioxygenase DcmC. In this study, the overall DCM degradation pathway of the consortium L1 was proposed and, particularly, the lower part on the DCP degradation was characterized at the genetic and biochemical levels. |
| author2 |
Advanced Environmental Biotechnology Centre |
| author_facet |
Advanced Environmental Biotechnology Centre Zhang, Hui Yu, Ting Li, Jie Wang, Yi-Ran Wang, Guang-Li Li, Feng Liu, Yuan Xiong, Ming-Hua Ma, Ying-Qun |
| format |
Article |
| author |
Zhang, Hui Yu, Ting Li, Jie Wang, Yi-Ran Wang, Guang-Li Li, Feng Liu, Yuan Xiong, Ming-Hua Ma, Ying-Qun |
| author_sort |
Zhang, Hui |
| title |
Two dcm gene clusters essential for the degradation of diclofop-methyl in a microbial consortium of rhodococcus sp. JT-3 and brevundimonas sp. JT-9 |
| title_short |
Two dcm gene clusters essential for the degradation of diclofop-methyl in a microbial consortium of rhodococcus sp. JT-3 and brevundimonas sp. JT-9 |
| title_full |
Two dcm gene clusters essential for the degradation of diclofop-methyl in a microbial consortium of rhodococcus sp. JT-3 and brevundimonas sp. JT-9 |
| title_fullStr |
Two dcm gene clusters essential for the degradation of diclofop-methyl in a microbial consortium of rhodococcus sp. JT-3 and brevundimonas sp. JT-9 |
| title_full_unstemmed |
Two dcm gene clusters essential for the degradation of diclofop-methyl in a microbial consortium of rhodococcus sp. JT-3 and brevundimonas sp. JT-9 |
| title_sort |
two dcm gene clusters essential for the degradation of diclofop-methyl in a microbial consortium of rhodococcus sp. jt-3 and brevundimonas sp. jt-9 |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/142606 |
| _version_ |
1681058052383440896 |