Patrick Obia Ongom, Christian Fatokun, Abou Togola, Ana Luisa Garcia-Oliveira, Eng Hwa Ng, Andrzej Kilian, Stefano Lonardi, Timothy J. Close, Ousmane Boukar
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引用次数: 0
摘要
分子标记被越来越多地用于加速作物的遗传增益。本研究旨在评估中密度基因分型面板在豇豆育种中分子应用的潜力。从现有的 51128 个豇豆 iSelect Consortium 阵列中设计了一个由 2602 个目标多样性阵列技术(DArTag)单核苷酸多态性(SNPs)组成的核心组。使用来自已知遗传背景的不同人群的 376 个基因型对面板的实用性进行了评估。该面板信息丰富,78% 以上的 SNP 小等位基因频率超过 0.20。正如预期的那样,该面板对构成人群的三个分层进行了解码。链接不平衡(LD)衰减被正确地描述为双亲子集比其他种群慢。已知的花和种皮颜色基因区域位于 Vu07 染色体上,这表明中密度面板可用于假设豇豆目标性状的基因组区域。在一些品系中检测到了意外的杂合性,在 F1 后代中的杂合性也很高,这揭示了该面板在种质纯度和杂交性验证中的潜在应用。这项研究揭示了优秀基因组资源的潜力,可用于促进改良豇豆栽培品种的开发。
A Mid-Density Single-Nucleotide Polymorphism Panel for Molecular Applications in Cowpea (Vigna unguiculata (L.) Walp)
Molecular markers are increasingly being deployed to accelerate genetic gain in crop plants. The objective of this study was to assess the potential of a mid-density genotyping panel for molecular applications in cowpea breeding. A core set of 2,602 targeted diversity array technology (DArTag) single-nucleotide polymorphisms (SNPs) was designed from an existing 51,128 Cowpea iSelect Consortium Array. The panel’s usefulness was assessed using 376 genotypes from different populations of known genetic backgrounds. The panel was informative, with over 78% of SNPs exceeding a minor allele frequency of 0.20. The panel decoded three stratifications in the constituted population, as was expected. Linkage disequilibrium (LD) decay was correctly depicted as slower in a biparental subset than in other populations. A known flower and seed coat color gene region was located on chromosome Vu07, suggesting that the mid-density panel may be used to hypothesize genomic regions underlying target traits in cowpea. Unexpected heterozygosity was detected in some lines and highly among F1 progenies, divulging the panel’s potential application in germplasm purity and hybridity verification. The study unveils the potential of an excellent genomic resource that can be tapped to enhance the development of improved cowpea cultivars.
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