一个类凝集素小麦基因对无毒力的黑森瘿蚊一龄幼虫的取食尝试产生系统性反应。

A lectin-like wheat gene responds systemically to attempted feeding by avirulent first-instar Hessian fly larvae.

作者信息

Williams Christie E, Collier Chad C, Nemacheck Jill A, Liang Chengzhi, Cambron Sue E

机构信息

USDA-ARS Crop Production and Pest Control Research Unit, West Lafayette, Indiana 47907, USA.

出版信息

J Chem Ecol. 2002 Jul;28(7):1411-28. doi: 10.1023/a:1016200619766.

DOI:10.1023/a:1016200619766

PMID:12199504

Abstract

Through gene-for-gene interactions, wheat plants respond to specific biotypes of Hessian fly upon the initiation of first-instar larval feeding. Leaves of plants containing the H9 resistance gene responded to avirulent biotype L. larvae with rapid changes in the levels of several mRNA transcripts and initiation of an incompatible interaction. A low-copy gene, Hfr-1 (Hessian fly-response gene 1), responded with increased mRNA levels for two days before returning to preinfestation levels by day five. Hfr-1 mRNA was constitutively expressed in uninfested control plants as well as in plants infested with virulent larvae. The cDNA sequence was similar to a maize gene encoding a beta-glucosidase aggregating factor (BGAF), to jacalin-like mannose-binding lectins, and to several plant genes that respond to microbial infections. The potential roles of Hfr-1 in defending wheat against Hessian fly damage are discussed.

摘要

通过基因对基因的相互作用，小麦植株在一龄幼虫开始取食时对黑森瘿蚊的特定生物型做出反应。含有H9抗性基因的植株叶片对无毒生物型L幼虫的反应是几种mRNA转录本水平迅速变化，并引发不相容的相互作用。一个低拷贝基因Hfr-1（黑森瘿蚊反应基因1）在两天内mRNA水平升高，到第五天恢复到侵染前水平。Hfr-1 mRNA在未受侵染的对照植株以及受有毒幼虫侵染的植株中组成型表达。该cDNA序列与编码β-葡萄糖苷酶聚集因子（BGAF）的玉米基因、jacalin样甘露糖结合凝集素以及几个对微生物感染有反应的植物基因相似。文中讨论了Hfr-1在保护小麦免受黑森瘿蚊侵害方面的潜在作用。

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一个类凝集素小麦基因对无毒力的黑森瘿蚊一龄幼虫的取食尝试产生系统性反应。

A lectin-like wheat gene responds systemically to attempted feeding by avirulent first-instar Hessian fly larvae.

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