Fine mapping and candidate gene analysis of the up locus determining fruit orientation in pepper (Capsicum spp.) |
Fruit orientation is an important horticultural and domesticated trait, which is controlled by a single semi-dominant gene (up) in pepper. However, the gene underlying up locus has not yet been identified. In this study, the previously detected major QTL UP12.1 was firstly verified using a backcross population (n = 225) stem from the cross of BB3 (C. annuum) and its wild relative Chiltepin (C. annuum var. glabriusculum) using BB3 as the recurrent parent. |
Fang Hu, Jiaowen Cheng, Jichi Dong, Jian Zhong, Ziyan Zhou & Kailin Hu Theoretical and Applied Genetics September 2021; vol. 134:2901–2911 Key messageThe up locus determining fruit orientation was fine-mapped into a region with a physical length of ~169.51 kb on chromosome P12 in pepper. Capana12g000958, encoding a developmentally regulated G protein 2, was proposed as the strongest candidate via sequence comparison and expression analysis. AbstractFruit orientation is an important horticultural and domesticated trait, which is controlled by a single semi-dominant gene (up) in pepper. However, the gene underlying up locus has not yet been identified. In this study, the previously detected major QTL UP12.1 was firstly verified using a backcross population (n = 225) stem from the cross of BB3 (C. annuum) and its wild relative Chiltepin (C. annuum var. glabriusculum) using BB3 as the recurrent parent. Then, a large BC1F2 population (n = 1827) was used for recombinant screening to delimit the up locus into an interval with ~ 169.51 kb in length. Sequence comparison and expression analysis suggested that Capana12g000958, encoding a developmentally regulated G protein 2, was the most likely candidate gene for the up locus. There is no difference within the coding sequences of Capana12g000958 between BB3 and Chiltepin, while a SNP in the upstream of Capana12g000958 showed a complete correlation with the fruit orientation among a panel of 40 diverse pepper inbred lines. These findings will form a basis for gene isolation and reveal of genetic mechanism underlying the fruit orientation domestication in pepper.
See https://link.springer.com/article/10.1007/s00122-021-03867-2 |
Trở lại In Số lần xem: 171 |
[ Tin tức liên quan ]___________________________________________________
|