Plant Genetic Group, Regional Service for Agrofood Research and Development (SERIDA), 33300, Villaviciosa, Asturias, Spain.
Theor Appl Genet. 2021 Nov;134(11):3687-3698. doi: 10.1007/s00122-021-03922-y. Epub 2021 Jul 30.
Three genes associated with the seed coat color in a TU/Musica RIL population were located on a genetic map, and two candidate genes proposed to control black seed coat in the TU genotype were characterized. Seed coat color is an important characteristic of common bean (Phaseolus vulgaris L.) associated with the marketability of dry bean cultivars, quality and nutritional characteristics of seed, as well as response to pathogens. In this study, the genetic control of seed coat color in a recombinant inbred line population (175 lines) obtained from the cross 'TU' × 'Musica' was investigated. Phenotypic segregation fitted 1:1 for white vs. nonwhite, and 3:1 for brown versus black, indicating the involvement of three independent genes, one controlling white color and two (with epistatic interaction) controlling black color. Using a genetic map built with 842 SNPs, the gene responsible for the white seed coat was mapped on the linkage group Pv07, in the position previously described for the P gene. For the black seed coat phenotype, two genes were mapped to the beginning of chromosomes Pv06 and Pv08, in the positions estimated for the V gene and the complex C locus, respectively, by classical studies. The involvement of these two genomic regions was verified through two crosses between three selected RILs exhibiting complementary and dominant inheritance, in which the TU alleles for both genes resulted in a black phenotype. Two genes involved in the anthocyanin biosynthesis pathway were proposed as candidate genes: Phvul.006G018800 encoding a flavonoid 3'5'hydroxylase and Phvul.008G038400 encoding MYB113 transcription factor. These findings add knowledge to the complex network of genes controlling seed coat color in common bean as well as providing genetic markers to be used in future genetic analysis or plant breeding.
三个与 TU/Musica RIL 群体种皮颜色相关的基因被定位在遗传图谱上,并且两个被提议控制 TU 基因型中黑色种皮的候选基因被表征。种皮颜色是普通豆(Phaseolus vulgaris L.)的一个重要特征,与干豆品种的市场性、种子的质量和营养价值以及对病原体的反应有关。在这项研究中,从 'TU' × 'Musica' 杂交中获得的重组自交系群体(175 个系)的种皮颜色的遗传控制进行了研究。表型分离符合白色对非白色的 1:1,棕色对黑色的 3:1,表明涉及三个独立的基因,一个控制白色,两个(具有上位性相互作用)控制黑色。利用基于 842 个 SNPs 的遗传图谱,负责白色种皮的基因被映射到 Pv07 连锁群上,位于先前为 P 基因描述的位置。对于黑色种皮表型,两个基因被映射到 Pv06 和 Pv08 染色体的起始处,分别位于经典研究中为 V 基因和复杂 C 基因座估计的位置。通过三个表现互补和显性遗传的精选 RIL 之间的两次杂交验证了这两个基因组区域的参与,其中 TU 等位基因对于这两个基因都导致黑色表型。两个参与类黄酮生物合成途径的基因被提议为候选基因:编码黄酮 3'5'羟化酶的 Phvul.006G018800 和编码 MYB113 转录因子的 Phvul.008G038400。这些发现增加了对普通豆种皮颜色控制复杂基因网络的知识,同时提供了遗传标记,可用于未来的遗传分析或植物育种。
