| Literature DB >> 34059625 |
Junjie Cui1, Yan Yang2, Shaobo Luo3, Le Wang4, Rukui Huang5, Qingfang Wen6, Xiaoxia Han7, Nansheng Miao8, Jiaowen Cheng1, Ziji Liu2, Changyuan Zhang3, Chengcheng Feng5, Haisheng Zhu6, Jianwen Su7, Xinjian Wan8, Fang Hu1, Yu Niu2, Xiaoming Zheng3, Yulan Yang4, Dai Shan4, Zhensheng Dong4, Weiming He9, Narinder P S Dhillon10, Kailin Hu11.
Abstract
Bitter gourd (Momordica charantia) is a popular cultivated vegetable in Asian and African countries. To reveal the characteristics of the genomic structure, evolutionary trajectory, and genetic basis underlying the domestication of bitter gourd, we performed whole-genome sequencing of the cultivar Dali-11 and the wild small-fruited line TR and resequencing of 187 bitter gourd germplasms from 16 countries. The major gene clusters (Bi clusters) for the biosynthesis of cucurbitane triterpenoids, which confer a bitter taste, are highly conserved in cucumber, melon, and watermelon. Comparative analysis among cucurbit genomes revealed that the Bi cluster involved in cucurbitane triterpenoid biosynthesis is absent in bitter gourd. Phylogenetic analysis revealed that the TR group, including 21 bitter gourd germplasms, may belong to a new species or subspecies independent from M. charantia. Furthermore, we found that the remaining 166 M. charantia germplasms are geographically differentiated, and we identified 710, 412, and 290 candidate domestication genes in the South Asia, Southeast Asia, and China populations, respectively. This study provides new insights into bitter gourd genetic diversity and domestication and will facilitate the future genomics-enabled improvement of bitter gourd.Year: 2020 PMID: 34059625 DOI: 10.1038/s41438-020-0305-5
Source DB: PubMed Journal: Hortic Res ISSN: 2052-7276 Impact factor: 6.793