Proteomics Laboratory, Division of Plant Biotechnology, Faculty of Horticulture, Sher-e-Kashmir University of Agricultural Sciences and Technology of Kashmir, Srinagar, India.
Division of Animal Biotechnology, Sher-e-Kashmir University of Agricultural Sciences and Technology of Kashmir, Srinagar, India.
Plant Genome. 2024 Mar;17(1):e20427. doi: 10.1002/tpg2.20427. Epub 2024 Jan 18.
Buckwheat (Fagopyrum spp.) is an important nutritional and nutraceutical-rich pseudo-cereal crop. Despite its obvious potential as a functional food, buckwheat has not been fully harnessed due to its low yield, self-incompatibility, increased seed cracking, limited seed set, lodging, and frost susceptibility. The inadequate availability of genomics resources in buckwheat is one of the major reasons for this. In the present study, genome-wide association mapping (GWAS) was conducted to identify loci associated with various morphological and yield-related traits in buckwheat. High throughput genotyping by sequencing led to the identification of 34,978 single nucleotide polymorphisms that were distributed across eight chromosomes. Population structure analysis grouped the genotypes into three sub-populations. The genotypes were also characterized for various qualitative and quantitative traits at two diverse locations, the analysis of which revealed a significant difference in the mean values. The association analysis revealed a total of 71 significant marker-trait associations across eight chromosomes. The candidate genes were identified near 100 Kb of quantitative trait loci (QTLs), providing insights into several metabolic and biosynthetic pathways. The integration of phenology and GWAS in the present study is useful to uncover the consistent genomic regions, related markers associated with various yield-related traits, and potential candidate genes having implications for being utilized in molecular breeding for the improvement of economically important traits in buckwheat. Moreover, the identified QTLs will assist in tracking the desirable alleles of target genes within the buckwheat breeding populations/germplasm.
荞麦(Fagopyrum spp.)是一种重要的营养和富含营养的伪谷物作物。尽管荞麦具有作为功能性食品的明显潜力,但由于产量低、自交不亲和性、种子开裂增加、结实有限、倒伏和易受霜冻影响,其潜力尚未得到充分发挥。荞麦中基因组资源的不足是其中一个主要原因。在本研究中,进行了全基因组关联图谱(GWAS)分析,以鉴定与荞麦各种形态和产量相关性状相关的基因座。高通量测序的基因型分析导致鉴定出 34978 个单核苷酸多态性,分布在八个染色体上。群体结构分析将基因型分为三个亚群。还在两个不同地点对基因型进行了各种定性和定量性状的特征描述,分析表明平均值存在显著差异。关联分析在八个染色体上总共发现了 71 个与标记相关的显著关联。候选基因位于数量性状基因座(QTL)附近 100 Kb 处,为几个代谢和生物合成途径提供了见解。本研究中表型和 GWAS 的整合有助于揭示与各种产量相关性状相关的一致基因组区域、相关标记和潜在的候选基因,这些基因对利用分子育种改良荞麦中经济重要性状具有重要意义。此外,鉴定出的 QTL 将有助于在荞麦育种群体/种质中跟踪目标基因的理想等位基因。
