Identifying Sources of Resistance to Aflatoxin and Fumonisin Contamination in Corn Grain

Journal of Toxicology-toxin Reviews Pub Date : 2004-01-01 DOI:10.1081/TXR-200027865

M. J. Clements, D. G. White

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引用次数: 46

Abstract

Researchers at the University of Illinois seek to identify sources of genetic resistance that contribute alleles for low aflatoxin and low fumonisin accumulation in grain and low severity of Aspergillus and Fusarium ear rots to commercial corn (Zea mays L.) inbreds. Studies of resistance to aflatoxin accumulation in grain and Aspergillus ear rot began in 1988 with experiments designed to address fundamental needs of a new breeding program. Through the 1990s, diverse inbred lines, test crosses, and segregating populations were developed and evaluated for resistance in numerous environments. Concerns of industry inspired researchers to initiate an accelerated program for resistance to fumonisin accumulation in grain and Fusarium ear rot in the late 1990s. Present research in both programs is directed with the latest molecular marker technology, and is focused on incorporating novel genes for resistance from diverse sources into elite inbred lines that impart high yield to hybrid performance. With continued funding, agronomically superior sources of resistance along with information on molecular markers associated with resistance soon may be released.

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玉米对黄曲霉毒素和伏马菌素污染的抗性来源鉴定

伊利诺斯大学的研究人员试图确定对商品玉米(Zea mays L.)自交系的低黄曲霉毒素和低伏马毒素积累以及低曲霉和镰刀菌穗腐病严重程度的等位基因的遗传抗性来源。小麦抗黄曲霉毒素积累和抗穗腐曲霉的研究始于1988年，当时的实验是为了满足一项新的育种计划的基本需要。在20世纪90年代，开发了多种自交系、试验杂交和分离群体，并在许多环境中评估了抗性。20世纪90年代末，工业的担忧促使研究人员启动了一项加速计划，以抵抗伏马菌素在谷物和穗腐镰刀菌中的积累。目前，这两个项目的研究都以最新的分子标记技术为指导，重点是将来自不同来源的新型抗性基因整合到优秀的自交系中，从而提高杂交性能的产量。随着持续的资金投入，农艺学上优越的抗性来源以及与抗性相关的分子标记信息可能很快就会公布。

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Journal of Toxicology-toxin Reviews

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