植物天然农药除虫菊酯的生物合成和应用研究进展
摘要:
利用生物底盘进行生物农药的绿色低耗能生产是合成生物学未来发展的重要方向。除虫菊酯是一种源自菊科植物除虫菊的天然高效杀虫剂,具有广谱和强力的杀虫和驱虫作用,相较于化学合成的类似物(拟除虫菊酯),对哺乳动物毒性小,无环境危害,是生物农药的最优选择之一,具有广阔的应用前景。天然除虫菊酯含有六种主要成分,由两种异型萜类酸配体和茉莉酸合成途径来源的三种醇配体缩合而成。本文总结了除虫菊酯的研究历程,重点介绍了其生物合成途径解析与生物制造等方面的进展,综述了近期解析的细胞色素P450等相关生物合成酶,并讨论除虫菊酯生产中涉及的调控、转运和底盘适配等尚待解决的问题。随着合成生物学技术的发展,利用已解析的代谢合成途径在微生物等底盘表达体系规模化生产除虫菊酯,能够为合成生物学生产绿色生物农药的科学理论与应用实践提供重要范例。
关键词: 合成生物学, 生物农药, 除虫菊酯, 合成途径, 异源表达
Abstract:
How to produce safe pesticides in chassis through energy-saving and environmentally friendly methods is one of challenges for synthetic biology. As a natural botanical insecticide, Pyrethrins derived from Pyrethrum (Tanacetum cinerariifolium) have good insecticidal and deworming activities with broad spectrum. Compared with chemical synthetic counterparts (pyrethroids), pyrethrins are less toxic and harmful to environment and human. These characteristics make pyrethrins not only one of the most ideal biological pesticides so far with broad applications and great potentials, but also candidates for their production via synthetic biology in the future. In this article, we review the discovery and chemical and biological characteristics of pyrethrins as well as the elucidation of their biosynthetic pathway by summarizing the catalytic enzymes identified recently including cytochrome P450s, dehydrogenases, methyltransferase and phosphatase etc. The synthesis process is mainly involved three parts: the synthesis of acid moieties, the synthesis of alcohol moieties and the condensation of acids and alcohols to esters. At present, the synthesis of acid moieties has been largely deciphered, and genes encoding key enzymes for acid-alcohol condensation have also been determined, but the synthesis of alcohol moieties needs to be explored further. With the identification of a large number of gene elements and the function of related genes in the plants, the rise of synthetic biology and the progress of synthetic technology, it is possible to express heterologous genes in chassis, integrate the pathway of heterologous synthesis to produce targeted products. This also makes it possible to express the metabolic pathway for the production of pyrethrins and their derivatives in suitable microbial chassis. Therefore, this review also focuses on challenges that need to be addressed in this regard, including regulation, transportation and chassis adaptation for more efficient production, and forecasts future development. We hope that more research progress could provide a solid scientific basis and application guidance for the biosynthesis of the green and effective pesticide, and finally realize the large-scale production of pyrethrins.
Key words: synthetic biology, biopesticide, pyrethrins, biosynthetic pathway, exogenous expression
中图分类号:
Q81
相关知识
除虫菊
成都新朝阳:植物干细胞生物合成技术——推动植物源农药产业高速发展
植物源农药的研发和应用
植物源农药价值远被低估,看全球商业化最成功的植物源农药
中国植物源杀虫剂的研制与应用
“生物化学农药的研发与应用”高峰研讨会在崇明举行
间种石蒜和除虫菊防控农作物病虫害的方法
农药植保基础知识
云南峨山除虫菊高产栽培技术
嘧菌酯和多菌灵对几种植物病原菌生物活性测定
网址: 植物天然农药除虫菊酯的生物合成和应用研究进展 https://m.huajiangbk.com/newsview172182.html
| 上一篇: 什么是微生物农药? 爱问知识人 |
下一篇: 详解2023年国内首登的17个新 |
