Alison Adams, Daniel Jeffers, Shien Lu, Baozhu Guo, W Paul Williams, Jake C Fountain
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引用次数: 0
Abstract
Non-genetic variation limits the identification of novel maize germplasm with genetic markers for reduced Aspergillus flavus infection and aflatoxin contamination. Aflatoxin measurements can vary substantially within fields containing the same germplasm following inoculation with A. flavus. While some variation is expected due to microenvironmental differences, components of field screening methodologies may also contribute to variability in collected data. Therefore, the objective of this study is to test the effects of three different shelling methods (whole ear (WE), ear end removal (EER), and inoculation site-surrounding (ISS)) to obtain bulk samples from maize on aflatoxin measurements. Five ears per row of three inbred lines and two hybrids were inoculated with A. flavus, then shelled using the three different methods, and aflatoxin was quantified. Overall, EER and ISS resulted in reduced coefficients of variance (CVs) in comparison to WE for both inbred and hybrid maize lines, with two exceptions. Susceptible B73 showed increased CVs with both EER and ISS compared to WE, and resistant Mp719's EER CVs marginally increased compared to WE. While WE is the standard practice for most breeding programs due to its technical simplicity, EER and ISS may allow for finely phenotyping parental lines for further breeding applications.
非遗传变异限制了具有减少黄曲霉感染和黄曲霉毒素污染遗传标记的新型玉米种质的鉴定。黄曲霉菌接种后,在含有相同种质的田块中,黄曲霉毒素的测量结果会有很大差异。虽然微环境的差异会导致一些差异,但田间筛选方法的一些组成部分也可能导致所收集数据的差异。因此,本研究的目的是测试三种不同的脱壳方法(整穗法(WE)、去穗端法(EER)和接种点包围法(ISS))对玉米黄曲霉毒素测量结果的影响。用黄曲霉菌接种三个近交系和两个杂交种的玉米,每行五穗,然后用三种不同的方法脱壳,并对黄曲霉毒素进行定量。总体而言,EER 和 ISS 与 WE 相比,降低了玉米近交系和杂交种的方差系数(CV),但有两个例外。与 WE 相比,抗性 B73 的 EER 和 ISS 的方差系数都有所增加;与 WE 相比,抗性 Mp719 的 EER 方差系数略有增加。虽然 WE 因其技术简单而成为大多数育种项目的标准做法,但 EER 和 ISS 可对亲本品系进行精细表型,以便进一步育种应用。
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