Population genetic structure of Gibberella zeae isolated from wheat in Argentina.

Food additives and contaminants Pub Date : 2007-10-01 DOI:10.1080/02652030701546487

M L Ramirez, M M Reynoso, M C Farnochi, A M Torres, J F Leslie, S N Chulze

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引用次数: 63

Abstract

Gibberella zeae (anamorph Fusarium graminearum) causes Fusarium head blight of wheat. The authors used amplified fragment length polymorphisms (AFLPs) to characterize the genetic structure of two G. zeae populations from commercial wheat fields. The working hypothesis was that sufficient genetic exchange occurs between local populations to prevent significant partitioning of allelic variation. We analysed 216 AFLP loci for 113 isolates collected during the 2002 harvest season. All strains had AFLP profiles typical of G. zeae lineage 7. Both populations were genotypically diverse but genetically similar and potentially part of a larger, randomly mating population, with significant genetic exchange probably occurring between the two subpopulations. Linkage disequilibrium was low, but higher than reported for many other populations of G. zeae, and about 20% of the alleles detected were specific to one of the two subpopulations - results consistent with limited gene exchange between the two subpopulations. This study extends previous work with populations of G. zeae to include those found in Argentina, one of the world's largest wheat growing countries.

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阿根廷小麦分离株玉米赤霉素的群体遗传结构。

玉米赤霉病(小麦赤霉病)引起小麦赤霉病。作者利用扩增片段长度多态性(aflp)对来自商品麦田的两个玉米螟群体的遗传结构进行了表征。工作假设是，当地种群之间发生了足够的遗传交换，以防止等位基因变异的显著分裂。我们分析了2002年收获季节收集的113株菌株的216个AFLP位点。所有菌株的AFLP图谱都具有典型的玉米菌种谱系7。这两个种群在基因上是不同的，但在遗传上是相似的，并且可能是一个更大的随机交配种群的一部分，两个亚种群之间可能发生了显著的遗传交换。连锁不平衡程度较低，但高于许多其他玉米玉米群体，并且检测到的约20%的等位基因特异性为两个亚群体中的一个，这与两个亚群体之间有限的基因交换结果一致。这项研究扩展了之前对玉米玉米种群的研究，将在世界上最大的小麦种植国之一阿根廷发现的玉米玉米种群纳入研究范围。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Food additives and contaminants

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