Institute of Vegetable, Wuhan Academy of Agriculture Science, Hubei, 430065, People's Republic of China.
BGI Genomics, BGI-Shenzhen, Shenzhen, Guangdong, 518083, People's Republic of China.
Plant J. 2020 Dec;104(6):1673-1684. doi: 10.1111/tpj.15029. Epub 2020 Nov 22.
Lotus (family: Nelumbonaceae) are perennial aquatic plants that represent one of the most ancient basal dicots. In the present study, we resequenced 296 lotus accessions from various geographical locations and germplasms to explore their genomic diversity and population structure. This germplasm set consisted of four accessions of American wild lotus and 292 accessions of Asian lotus, which were divided into four subgroups: wild, rhizome, flower and seed. Total single nucleotide polymorphisms (SNPs) suggested that the wild lotus had the highest variant number (7 191 010). Population structure and genome diversity analysis indicated that the American wild lotus demonstrated a distant genetic relationship with the Asian lotus. Furthermore, the seed and rhizome lotus groups had not originated from a single source but rather had a more complex multisource origin. Besides that, the seed lotus showed higher genetic diversity, which might have been due to the gene flow from the flower lotus to seed lotus by artificial crossing, and the rhizome lotus showed a much lower genetic diversity than the other groups. The present study provides SNP markers for lotus genomic diversity analysis, which will be useful for guiding lotus breeding.
荷花(莲科)是多年生水生植物,代表着最古老的双子叶植物之一。在本研究中,我们对来自不同地理来源和种质资源的 296 个荷花品种进行了重测序,以探索其基因组多样性和群体结构。该种质资源集由四个美洲野生荷花品种和 292 个亚洲荷花品种组成,分为野生、根茎、花朵和种子四个亚群。总单核苷酸多态性(SNP)表明,野生荷花的变异数量最多(7191010 个)。种群结构和基因组多样性分析表明,美洲野生荷花与亚洲荷花具有较远的遗传关系。此外,种子和根茎荷花群体并非起源于单一来源,而是具有更为复杂的多源起源。此外,种子荷花表现出更高的遗传多样性,这可能是由于人工杂交导致花朵荷花向种子荷花的基因流动,而根茎荷花的遗传多样性比其他群体低得多。本研究为荷花基因组多样性分析提供了 SNP 标记,这将有助于指导荷花的选育。
