Mutation of a Histidine-rich Calcium-binding-protein Gene in Wheat Confers Resistance to Fusarium Head Blight

Overview

Journal Nat Genet

Specialty Genetics

Date 2019 Jun 12

PMID 31182810

Citations 92

Authors

Guoqiang Li

Jiyang Zhou

Haiyan Jia

Zhongxia Gao

Min Fan

Yanjun Luo

Panting Zhao

Shulin Xue

Na Li

Yang Yuan

Shengwei Ma

Zhongxin Kong

Li Jia

Xia An

Ge Jiang

Wenxing Liu

Wenjin Cao

Rongrong Zhang

Jicai Fan

Xiaowu Xu

Yanfang Liu

Qianqian Kong

Shouhang Zheng

Yao Wang

Bin Qin

Shouyang Cao

Yunxiao Ding

Jinxing Shi

Haisheng Yan

Xin Wang

Congfu Ran

Zhengqiang Ma

Affiliations

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Abstract

Head or ear blight, mainly caused by Fusarium species, can devastate almost all staple cereal crops (particularly wheat), resulting in great economic loss and imposing health threats on both human beings and livestock. However, achievement in breeding for highly resistant cultivars is still not satisfactory. Here, we isolated the major-effect wheat quantitative trait locus, Qfhs.njau-3B, which confers head blight resistance, and showed that it is the same as the previously designated Fhb1. Fhb1 results from a rare deletion involving the 3' exon of the histidine-rich calcium-binding-protein gene on chromosome 3BS. Both wheat and Arabidopsis transformed with the Fhb1 sequence showed enhanced resistance to Fusarium graminearum spread. The translation products of this gene's homologs among plants are well conserved and might be essential for plant growth and development. Fhb1 could be useful not only for curbing Fusarium head blight in grain crops but also for improving other plants vulnerable to Fusarium species.

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