期刊
PEST MANAGEMENT SCIENCE
卷 77, 期 8, 页码 3637-3649出版社
JOHN WILEY & SONS LTD
DOI: 10.1002/ps.6073
关键词
natural products; insecticides; agrochemical discovery; artificial intelligence; Computer-aided molecular design (CAMD)
Spinosyns, derived from soil inhibiting microorganisms, have been developed into various insect control products over the years with the help of artificial intelligence and computational tools. The recent synthetic spinosyn mimics have shown promising insecticidal effects against lepidopteran pests.
Natural products (NPs) have long been a source of insecticidal crop protection products. Like many macrolide NPs, the spinosyns originated from a soil inhibiting microorganism (Saccharopolyspora spinosa). More than 20 years after initial registration, the spinosyns remain a unique class of NP-based insect control products that presently encompass two insecticidal active ingredients, spinosad, a naturally occurring mixture of spinosyns, and spinetoram, a semi-synthetic spinosyn product. The exploration and exploitation of the spinosyns has, unusually, been tied to an array of computational tools including artificial intelligence (AI)-based quantitative structure activity relationship (QSAR) and most recently computer-aided modeling and design (CAMD). The AI-based QSAR directly lead to the discovery of spinetoram, while the CAMD studies have recently resulted in the discovery and building of a series of synthetic spinosyn mimics. The most recent of these synthetic spinosyn mimics show promise as insecticides targeting lepidopteran insect pests as demonstrated by field studies wherein the efficacy has been shown to be comparable to spinosad and spinetoram. These and a range of other aspects related to the exploration of the spinosyns over the past 30 years are reviewed herein. (c) 2020 Society of Chemical Industry
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