Unveiling the regulatory mechanisms of salicylate degradation gene cluster cehGHIR4 in Rhizobium sp. strain X9

In a previous study, the novel gene cluster cehGHI was found to be involved in salicylate degradation through the CoA-mediated pathway in Rhizobium sp. strain X9 (Mol Microbiol 116:783–793, 2021). In this study, an IclR family transcriptional regulator CehR4 was identified. In contrast to other regu...

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Published in:Applied and environmental microbiology 2023-10, Vol.89 (10), p.1-e0080223
Main Authors: Ke, Zhijian, Zhu, Qian, Zhang, Mingliang, Gao, Siyuan, Jiang, Mingli, Zhou, Yidong, Qiu, Jiguo, Cheng, Minggen, Yan, Xin, Wang, Jinbo, Hong, Qing
Format: Article
Language:English
Subjects:
Binding
Biodegradation
Degradation
Deoxyribonuclease
Electrophoretic mobility
Footprinting
Regulatory mechanisms (biology)
Rhizobium
Salicylic acid
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Summary:In a previous study, the novel gene cluster cehGHI was found to be involved in salicylate degradation through the CoA-mediated pathway in Rhizobium sp. strain X9 (Mol Microbiol 116:783–793, 2021). In this study, an IclR family transcriptional regulator CehR4 was identified. In contrast to other regulators involved in salicylate degradation, cehR4 forms one operon with the gentisyl-CoA thioesterase gene cehI , while cehG and cehH (encoding salicylyl-CoA ligase and salicylyl-CoA hydroxylase, respectively) form another operon. cehGH and cehIR4 are divergently transcribed, and their promoters overlap. The results of the electrophoretic mobility shift assay and DNase I footprinting showed that CehR4 binds to the 42-bp motif between genes cehH and cehI , thus regulating transcription of cehGH and cehIR4 . The repeat sequences IR1 (5′- TTTATATAAA -3′) and IR2 (5′- AATATAGAAA -3′) in the motif are key sites for CehR4 binding. The arrangement of cehGH and cehIR4 and the conserved binding motif of CehR4 were also found in other bacterial genera. The results disclose the regulatory mechanism of salicylate degradation through the CoA pathway and expand knowledge about the systems controlled by IclR family transcriptional regulators. The long-term residue of aromatic compounds in the environment has brought great threat to the environment and human health. Microbial degradation plays an important role in the elimination of aromatic compounds in the environment. Salicylate is a common intermediate metabolite in the degradation of various aromatic compounds. Recently, Rhizobium sp. strain X9, capable of degrading the pesticide carbaryl, was isolated from carbaryl-contaminated soil. Salicylate is the intermediate metabolite that appeared during the degradation of carbaryl, and a novel salicylate degradation pathway and the involved gene cluster cehGHIR4 have been identified. This study identified and characterized the IclR transcription regulator CehR4 that represses transcription of cehGHIR4 gene cluster. Additionally, the genetic arrangements of cehGH and cehIR4 and the binding sites of CehR4 were also found in other bacterial genera. This study provides insights into the biodegradation of salicylate and provides an application in the bioremediation of aromatic compound-contaminated environments.
ISSN:0099-2240
1098-5336
DOI:10.1128/aem.00802-23