TY - EJOU
AU - Liu, Xinxin
AU - Zhang, Yueyue
AU - Sharif, Rahat
AU - Mo, Weiqin
AU - Li, Zhenrong
AU - Yang, Guiling
AU - Song, Chao
AU - Ye, Ting
AU - Chen, Changming
TI - Mapping of the Pepper Purple Fruit Gene and Development of Molecular Markers Based on BSA-Seq
T2 - Phyton-International Journal of Experimental Botany
PY - 2025
VL - 94
IS - 6
SN - 1851-5657
AB - The color difference of capsicum fruit is closely related to the type and content of pigment in the peel, which is mainly determined by anthocyanins, chlorophyll, and carotenoids. This study used green “CA59” and purple “Z81” pepper fruits as parents to create the F2 generation. The fruit color of 466 F2 population was identified, and the extreme individuals from this population were selected for Bulked Segregant Analysis (BSA) using resequencing. Genetic analysis revealed that a pair of genes controls the expression of the purple fruit trait in capsicum. Using functional annotation, expression analysis, and sequencing analysis of candidate genes, it was determined that there were four genes in the region between InDel 67 and InDel 75 (185,664,068 BP-186,514,350 bp) on chromosome 10, that is the linkage interval for pepper purple fruit. There are 7 SNPs in the CaMYB1 gene (Capann_59V1aChr10g016200) in the pepper variety “Z81”. Of these, 4 SNPs are located in the gene’s coding region. These 4 SNPs lead to 2 mutations that do not change the amino acid sequence (synonymous mutations) and 2 mutations that do change the amino acid sequence (non-synonymous mutations). Additionally, the expression level of the CaMYB1 gene in the purple fruit of “Z81” is significantly higher than that in the green fruit of “CA59”. CaMYB1 is believed to be a crucial candidate gene in regulating anthocyanin production in purple capsicum fruit. A molecular marker, InDel 67, was successfully developed, with a total separation rate of 92.4%.
KW - Pepper; purple fruit; genetic analysis; BSA-seq; CaMYB1
DO - 10.32604/phyton.2025.063349