豆科间作作物控制独脚金属寄生杂草的新遗传机遇。

New genetic opportunities from legume intercrops for controlling Striga spp. parasitic weeds.

作者信息

Hooper Antony M, Hassanali Ahmed, Chamberlain Keith, Khan Zeyaur, Pickett John A

机构信息

Biological Chemistry Department, Centre for Sustainable Pest and Disease Management, Rothamsted Research, Harpenden, Herts, UK.

出版信息

Pest Manag Sci. 2009 May;65(5):546-52. doi: 10.1002/ps.1731.

DOI:10.1002/ps.1731

PMID:19266493

Abstract

In smallholder farming in East Africa, intercropping of maize with the cattle forage legume, Desmodium uncinatum Jacq., prevents parasitism by Striga hermonthica (Del.) Benth. (witchweed) through an allelopathic mechanism. Isoschaftoside, a di-C-glycosylflavone, isolated from the root extract and root exudate of Desmodium, interferes with in vitro radicle development of germinated Striga. The biosynthetic pathway of this class of compound is already mostly present in edible legumes and in cereals, so characterisation of the enzyme and genes that control C-glycosylflavone biosynthesis has the potential to create this protection mechanism in other agriculturally important plants.

摘要

在东非的小农农业中，玉米与牛饲料豆科植物钩状猪屎豆间作，通过化感机制防止独脚金（列当属）寄生。从猪屎豆的根提取物和根分泌物中分离出的异荭草苷（一种二 - C - 糖基黄酮）会干扰独脚金萌发后的胚根体外发育。这类化合物的生物合成途径在可食用豆类和谷物中大多已经存在，因此对控制C - 糖基黄酮生物合成的酶和基因进行表征，有可能在其他重要农业植物中建立这种保护机制。

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豆科间作作物控制独脚金属寄生杂草的新遗传机遇。

New genetic opportunities from legume intercrops for controlling Striga spp. parasitic weeds.

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