Gouesnard Brigitte, Negro Sandra, Laffray Amélie, Glaubitz Jeff, Melchinger Albrecht, Revilla Pedro, Moreno-Gonzalez Jesus, Madur Delphine, Combes Valérie, Tollon-Cordet Christine, Laborde Jacques, Kermarrec Dominique, Bauland Cyril, Moreau Laurence, Charcosset Alain, Nicolas Stéphane
INRA, UMR AGAP 1334, 2 Place Viala, 34060, Montpellier, France.
INRA, UMR 0320 Génétique Quantitative et Évolution, le Moulon, Ferme du Moulon, 91190, Gif/Yvette, France.
Theor Appl Genet. 2017 Oct;130(10):2165-2189. doi: 10.1007/s00122-017-2949-6. Epub 2017 Aug 5.
Genotyping by sequencing is suitable for analysis of global diversity in maize. We showed the distinctiveness of flint maize inbred lines of interest to enrich the diversity of breeding programs. Genotyping-by-sequencing (GBS) is a highly cost-effective procedure that permits the analysis of large collections of inbred lines. We used it to characterize diversity in 1191 maize flint inbred lines from the INRA collection, the European Cornfed association panel, and lines recently derived from landraces. We analyzed the properties of GBS data obtained with different imputation methods, through comparison with a 50 K SNP array. We identified seven ancestral groups within the Flint collection (dent, Northern flint, Italy, Pyrenees-Galicia, Argentina, Lacaune, Popcorn) in agreement with breeding knowledge. Analysis highlighted many crosses between different origins and the improvement of flint germplasm with dent germplasm. We performed association studies on different agronomic traits, revealing SNPs associated with cob color, kernel color, and male flowering time variation. We compared the diversity of both our collection and the USDA collection which has been previously analyzed by GBS. The population structure of the 4001 inbred lines confirmed the influence of the historical inbred lines (B73, A632, Oh43, Mo17, W182E, PH207, and Wf9) within the dent group. It showed distinctly different tropical and popcorn groups, a sweet-Northern flint group and a flint group sub-structured in Italian and European flint (Pyrenees-Galicia and Lacaune) groups. Interestingly, we identified several selective sweeps between dent, flint, and tropical inbred lines that co-localized with SNPs associated with flowering time variation. The joint analysis of collections by GBS offers opportunities for a global diversity analysis of maize inbred lines.
基于测序的基因分型适用于分析玉米的全球多样性。我们展示了感兴趣的硬粒玉米自交系的独特性,以丰富育种计划的多样性。基于测序的基因分型(GBS)是一种极具成本效益的方法,可用于分析大量自交系。我们用它来表征来自法国国家农业研究院(INRA)种质库、欧洲玉米种植者协会小组以及最近从地方品种衍生而来的1191个硬粒玉米自交系的多样性。通过与50K SNP芯片比较,我们分析了用不同填充方法获得的GBS数据的特性。我们在硬粒种质库中确定了七个祖先群体(马齿型、北方硬粒型、意大利型、比利牛斯 - 加利西亚型、阿根廷型、拉库内型、爆裂型),这与育种知识相符。分析突出了不同起源之间的许多杂交以及用马齿型种质改良硬粒种质的情况。我们对不同农艺性状进行了关联研究,揭示了与穗轴颜色、籽粒颜色和雄花开花时间变异相关的单核苷酸多态性(SNP)。我们比较了我们的种质库和之前已通过GBS分析的美国农业部种质库的多样性。4001个自交系的群体结构证实了马齿型群体中历史自交系(B73、A632、Oh43、Mo17、W182E、PH207和Wf9)的影响。它显示出明显不同的热带和爆裂型群体、一个甜质 - 北方硬粒型群体以及一个在意大利硬粒型和欧洲硬粒型(比利牛斯 - 加利西亚型和拉库内型)群体中细分的硬粒型群体。有趣的是,我们在马齿型、硬粒型和热带自交系之间确定了几个与开花时间变异相关的SNP共定位的选择性清除区域。通过GBS对种质库进行联合分析为玉米自交系的全球多样性分析提供了机会。
