开发一种快速多重SSR基因分型方法以研究真菌植物病原体小麦黄斑叶枯病菌的群体。

Development of a rapid multiplex SSR genotyping method to study populations of the fungal plant pathogen Zymoseptoria tritici.

作者信息

Gautier Angélique, Marcel Thierry C, Confais Johann, Crane Charles, Kema Gert, Suffert Frédéric, Walker Anne-Sophie

机构信息

UR 1290 BIOGER-CPP, INRA, BP01, Avenue Lucien Brétignières, F-78850 Thiverval-Grignon, France.

出版信息

BMC Res Notes. 2014 Jun 18;7:373. doi: 10.1186/1756-0500-7-373.

DOI:10.1186/1756-0500-7-373

PMID:24943709

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4074386/

Abstract

BACKGROUND

Zymoseptoria tritici is a hemibiotrophic ascomycete fungus causing leaf blotch of wheat that often decreases yield severely. Populations of the fungus are known to be highly diverse and poorly differentiated from each other. However, a genotyping tool is needed to address further questions in large collections of isolates, regarding regional population structure, adaptation to anthropogenic selective pressures, and dynamics of the recently discovered accessory chromosomes. This procedure is limited by costly and time-consuming simplex PCR genotyping. Recent development of genomic approaches and of larger sets of SSRs enabled the optimization of microsatellite multiplexing.

FINDINGS

We report here a reliable protocol to amplify 24 SSRs organized in three multiplex panels, and covering all Z. tritici chromosomes. We also propose an automatic allele assignment procedure, which allows scoring alleles in a repeatable manner across studies and laboratories. All together, these tools enabled us to characterize local and worldwide populations and to calculate diversity indexes consistent with results reported in the literature.

CONCLUSION

This easy-to-use, accurate, repeatable, economical, and faster technical strategy can provide useful genetic information for evolutionary inferences concerning Z. tritici populations. Moreover, it will facilitate the comparison of studies from different scientific groups.

摘要

背景

小麦黄斑叶枯病菌是一种半活体营养型子囊菌真菌，可引发小麦叶斑病，常导致产量严重下降。已知该真菌群体具有高度多样性，且彼此间分化程度较低。然而，需要一种基因分型工具来解决大量分离株中的进一步问题，包括区域群体结构、对人为选择压力的适应性以及最近发现的附加染色体的动态变化。此过程受限于成本高昂且耗时的单重PCR基因分型。基因组方法和更多SSR集合的最新发展使得微卫星多重化得以优化。

研究结果

我们在此报告一种可靠的方案，可扩增组织在三个多重面板中的24个SSR，覆盖小麦黄斑叶枯病菌的所有染色体。我们还提出了一种自动等位基因分配程序，该程序允许在不同研究和实验室之间以可重复的方式对等位基因进行评分。这些工具共同使我们能够对本地和全球群体进行特征分析，并计算与文献报道结果一致的多样性指数。

结论

这种易于使用、准确、可重复、经济且更快的技术策略可为有关小麦黄斑叶枯病菌群体的进化推断提供有用的遗传信息。此外，它将有助于不同科学团队研究之间的比较。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8581/4074386/b6d8bb629e97/1756-0500-7-373-1.jpg

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开发一种快速多重SSR基因分型方法以研究真菌植物病原体小麦黄斑叶枯病菌的群体。

Development of a rapid multiplex SSR genotyping method to study populations of the fungal plant pathogen Zymoseptoria tritici.

作者信息

机构信息

出版信息

BACKGROUND

FINDINGS

CONCLUSION

背景

研究结果

结论

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