Polyketide pesticides from actinomycetes.

Current Opinion in Biotechnology
Shanshan LiLixin Zhang

Abstract

Natural product derived pesticides have increased in popularity worldwide because of their high efficacy, eco-friendly nature and favorable safety profile. The development of polyketide pesticides from actinomycetes reflects this increase in popularity in the past decades. These pesticides, which include avermectins, spinosyns, polynactins, tetramycin and their analogues, have been successfully applied in crop protection. Moreover, the advance of biotechnology has led to continuous improvement in the discovery and production processes. In this review, we summarize these polyketide pesticides, their activities and provide insight into their development. We also discuss engineering strategies and the current status of industrial production for these pesticides. Given that actinomycetes are known to produce a wide range of bioactive secondary metabolites, the description of pesticide development and high yield strain improvement presented herein will facilitate further development of these valuable polyketide pesticides from actinomycetes.

References

Apr 1, 1972·Journal of Economic Entomology·T SagawaH Oishi
Mar 1, 1971·The Journal of Antibiotics·K DornbergerH Thrum
Dec 23, 2003·Applied Microbiology and Biotechnology·Y J YoonC-Y Choi
Sep 24, 2005·Journal of Industrial Microbiology & Biotechnology·Donald R HahnJon Mitchell
Dec 28, 2006·Journal of Natural Products·Lesley S SheehanChristine J Martin
Mar 18, 2008·Journal of Computer-aided Molecular Design·Thomas C SparksJames Gifford
Dec 17, 2008·Applied Microbiology and Biotechnology·Ke-xue HuangJames A Zahn
Feb 14, 2009·Bioorganic & Medicinal Chemistry·Franck E DayanStephen O Duke
Jul 11, 2009·Science·Jesse W-H Li, John C Vederas
Jan 30, 2010·Science·H Charles J GodfrayCamilla Toulmin
Feb 6, 2010·Proceedings of the National Academy of Sciences of the United States of America·Mamoru KomatsuHaruo Ikeda
Jun 30, 2011·Applied Microbiology and Biotechnology·Jingfan QiuZixin Deng
Sep 30, 2014·Nature Chemical Biology·James R DoroghaziWilliam W Metcalf
Nov 20, 2015·Journal of Industrial Microbiology & Biotechnology·Ute Galm, Thomas C Sparks
Dec 25, 2015·Proceedings of the National Academy of Sciences of the United States of America·Wesley C Van VoorhisTimothy N C Wells
May 2, 2016·Science China. Life Sciences·Jinsong ChenLixin Zhang
Jul 13, 2016·Applied and Environmental Microbiology·Jun HuangYu-Guo Zheng
Aug 4, 2016·Natural Product Research·Tatyana A ShishlyannikovaNatalia L Belkova
Oct 20, 2017·Current Opinion in Biotechnology·Qiang GaoLixin Zhang
Nov 17, 2017·Annual Review of Plant Biology·Angela E Douglas
Mar 24, 2018·Environmental Science and Pollution Research International·Hélène Budzinski, Michel Couderchet
Jun 24, 2018·Pesticide Biochemistry and Physiology·Yangyang GaoFeng Liu
Dec 1, 2018·Pesticide Biochemistry and Physiology·Dicheng MaFeng Liu
Jan 10, 2019·Synthetic and Systems Biotechnology·Qian DengChangming Zhao
Jun 3, 2020·Current Opinion in Biotechnology·Zhixing CaoLixin Zhang
Jul 23, 2020·Synthetic and Systems Biotechnology·Pinjiao JinWensheng Xiang
Jul 28, 2020·Trends in Biotechnology·Yunhe LiJörg Romeis
Aug 8, 2020·Current Opinion in Chemical Biology·Alexandra A MalicoGavin J Williams
Dec 15, 2020·Current Opinion in Biotechnology·Shanshan LiWeishan Wang

❮ Previous
Next ❯

Citations


❮ Previous
Next ❯

Related Concepts

Related Feeds

Bioinformatics in Biomedicine

Bioinformatics in biomedicine incorporates computer science, biology, chemistry, medicine, mathematics and statistics. Discover the latest research on bioinformatics in biomedicine here.

Related Papers

Critical Reviews in Microbiology
A De Schrijver, R De Mot
Science
Selman A Waksman
Archives of Oral Biology
K A BISSET, G H DAVIS
© 2021 Meta ULC. All rights reserved