A journey to understand wheat Fusarium head blight resistance in the Chinese wheat landrace Wangshuibai  被引量：33

作　　者：Haiyan Jia Jiyang Zhou Shulin Xue Guoqiang Li Haisheng Yan Congfu Ran Yiduo Zhang Jinxing Shi Li Jia Xin Wang Jing Luo Zhengqiang Ma 

机构地区：[1]The Applied Plant Genomics Laboratory, Nanjing Agricultural University

出　　处：《The Crop Journal》2018年第1期48-59,共12页作物学报（英文版）

基　　金：supported by National Key Research and Development Program (2016YFD0101802, 2016YFD0101004);National Basic Research Program of China (2004CB117205, 2012CB125902);National Key Technology R&D Program of China (2002AA224161);National Science and Technology Major Project (2009ZX08009-049B, 2012ZX08009003);Jiangsu Collaborative Innovation Initiative for Modern Crop Production,'111' project B08025;Natural Science Foundation of Jiangsu Province (BK20131316);Innovation Team Program for Jiangsu Universities (2014);the long-term funding from the National Science Foundation of China (30025030,30430440,30721140555,31030054,30671295)

摘　　要：Fusarium head blight(FHB) or scab caused by Fusarium graminearum is a major threat to wheat production in China as well as in the world. To combat this disease, multiple efforts have been carried out internationally. In this article, we review our long-time effort in identifying the resistance genes and dissecting the resistance mechanisms by both forward and reverse genetics approaches in the last two decades. We present recent progress in resistance QTL identification, candidate functional gene discovery, marker-assisted improvement of FHB resistant varieties, and findings in investigating association of signal molecules, such as Ca^(++),SA, JA, and ET, with FHB response, with the assistance from rapidly growing genomics platforms. The information will be helpful for designing novel and efficient approaches to curb FHB.Fusarium head blight(FHB) or scab caused by Fusarium graminearum is a major threat to wheat production in China as well as in the world. To combat this disease, multiple efforts have been carried out internationally. In this article, we review our long-time effort in identifying the resistance genes and dissecting the resistance mechanisms by both forward and reverse genetics approaches in the last two decades. We present recent progress in resistance QTL identification, candidate functional gene discovery, marker-assisted improvement of FHB resistant varieties, and findings in investigating association of signal molecules, such as Ca^(++),SA, JA, and ET, with FHB response, with the assistance from rapidly growing genomics platforms. The information will be helpful for designing novel and efficient approaches to curb FHB.

关 键 词：FUSARIUM head blight QTL Gene discovery Marker-assisted selection TRITICUM AESTIVUM 

分 类 号：S[农业科学]