Characteristics and metabolic pathway of acetamiprid biodegradation by Fusarium sp. strain CS-3 isolated from soil

Zhoukun Shi; Weiliang Dong; Fengxue Xin; Jiawei Liu; Xinhai Zhou; Fanli Xu; Ziyao Lv; Jiangfeng Ma; Wenming Zhang; Yan Fang; Min Jiang

doi:10.1007/s10532-018-9855-8

Characteristics and metabolic pathway of acetamiprid biodegradation by Fusarium sp. strain CS-3 isolated from soil

Zhoukun Shi, Weiliang Dong, Fengxue Xin, Jiawei Liu, Xinhai Zhou, Fanli Xu, Ziyao Lv, Jiangfeng Ma, Wenming Zhang, Yan Fang, Min Jiang

COLLEGE OF BIOTECHNOLOGY AND PHARMACEUTICAL ENGINEERING

Nanjing Tech University

Research output: Contribution to journal › Article › peer-review

30 Scopus citations

Abstract

Abstract: An acetamiprid-degrading fungus was isolated from contaminated soil and identified as Fusarium sp. strain CS-3 based on physiological, biochemical, and molecular analyses. Strain CS-3 exploited 50 mg/L as the sole carbon source in liquid culture, removing 98% in 96 h. Strain CS-3 retained its acetamiprid degradation abilities over a wide range of pH (5.0–8.0) and temperature (20–42 °C). HPLC–MS analysis showed that N′-[(6-chloropyridin-3-yl)methyl]-N-methylacetamide, 2-chloro-5-hydroxymethylpyridine, and 6-chloronicotinic acid were identified as the most predominant metabolites, forming the basis for a newly described acetamiprid degradation pathway. Strain CS-3 efficiently degraded 99.6% of 50 mg/kg acetamiprid in soil, indicating potential for soil remediation. Graphical abstract: [Figure not available: see fulltext.].

Original language	English
Pages (from-to)	593-603
Number of pages	11
Journal	Biodegradation
Volume	29
Issue number	6
DOIs	https://doi.org/10.1007/s10532-018-9855-8
State	Published - 1 Dec 2018

Keywords

6-Chloronicotinic acid
Acetamiprid
Acetamiprid-contaminated soil remediation
Fusarium sp
Strain CS-3

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10.1007/s10532-018-9855-8

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title = "Characteristics and metabolic pathway of acetamiprid biodegradation by Fusarium sp. strain CS-3 isolated from soil",

abstract = "Abstract: An acetamiprid-degrading fungus was isolated from contaminated soil and identified as Fusarium sp. strain CS-3 based on physiological, biochemical, and molecular analyses. Strain CS-3 exploited 50 mg/L as the sole carbon source in liquid culture, removing 98% in 96 h. Strain CS-3 retained its acetamiprid degradation abilities over a wide range of pH (5.0–8.0) and temperature (20–42 °C). HPLC–MS analysis showed that N′-[(6-chloropyridin-3-yl)methyl]-N-methylacetamide, 2-chloro-5-hydroxymethylpyridine, and 6-chloronicotinic acid were identified as the most predominant metabolites, forming the basis for a newly described acetamiprid degradation pathway. Strain CS-3 efficiently degraded 99.6% of 50 mg/kg acetamiprid in soil, indicating potential for soil remediation. Graphical abstract: [Figure not available: see fulltext.].",

keywords = "6-Chloronicotinic acid, Acetamiprid, Acetamiprid-contaminated soil remediation, Fusarium sp, Strain CS-3",

author = "Zhoukun Shi and Weiliang Dong and Fengxue Xin and Jiawei Liu and Xinhai Zhou and Fanli Xu and Ziyao Lv and Jiangfeng Ma and Wenming Zhang and Yan Fang and Min Jiang",

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doi = "10.1007/s10532-018-9855-8",

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T1 - Characteristics and metabolic pathway of acetamiprid biodegradation by Fusarium sp. strain CS-3 isolated from soil

AU - Shi, Zhoukun

AU - Dong, Weiliang

AU - Xin, Fengxue

AU - Liu, Jiawei

AU - Zhou, Xinhai

AU - Xu, Fanli

AU - Lv, Ziyao

AU - Ma, Jiangfeng

AU - Zhang, Wenming

AU - Fang, Yan

AU - Jiang, Min

PY - 2018/12/1

Y1 - 2018/12/1

N2 - Abstract: An acetamiprid-degrading fungus was isolated from contaminated soil and identified as Fusarium sp. strain CS-3 based on physiological, biochemical, and molecular analyses. Strain CS-3 exploited 50 mg/L as the sole carbon source in liquid culture, removing 98% in 96 h. Strain CS-3 retained its acetamiprid degradation abilities over a wide range of pH (5.0–8.0) and temperature (20–42 °C). HPLC–MS analysis showed that N′-[(6-chloropyridin-3-yl)methyl]-N-methylacetamide, 2-chloro-5-hydroxymethylpyridine, and 6-chloronicotinic acid were identified as the most predominant metabolites, forming the basis for a newly described acetamiprid degradation pathway. Strain CS-3 efficiently degraded 99.6% of 50 mg/kg acetamiprid in soil, indicating potential for soil remediation. Graphical abstract: [Figure not available: see fulltext.].

AB - Abstract: An acetamiprid-degrading fungus was isolated from contaminated soil and identified as Fusarium sp. strain CS-3 based on physiological, biochemical, and molecular analyses. Strain CS-3 exploited 50 mg/L as the sole carbon source in liquid culture, removing 98% in 96 h. Strain CS-3 retained its acetamiprid degradation abilities over a wide range of pH (5.0–8.0) and temperature (20–42 °C). HPLC–MS analysis showed that N′-[(6-chloropyridin-3-yl)methyl]-N-methylacetamide, 2-chloro-5-hydroxymethylpyridine, and 6-chloronicotinic acid were identified as the most predominant metabolites, forming the basis for a newly described acetamiprid degradation pathway. Strain CS-3 efficiently degraded 99.6% of 50 mg/kg acetamiprid in soil, indicating potential for soil remediation. Graphical abstract: [Figure not available: see fulltext.].

KW - 6-Chloronicotinic acid

KW - Acetamiprid

KW - Acetamiprid-contaminated soil remediation

KW - Fusarium sp

KW - Strain CS-3

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Characteristics and metabolic pathway of acetamiprid biodegradation by Fusarium sp. strain CS-3 isolated from soil

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