Litcius/Paper detail

Two telomere-to-telomere gapless genomes reveal insights into Capsicum evolution and capsaicinoid biosynthesis

Weikai Chen, Xiangfeng Wang, Jie Sun, Xinrui Wang, Zhangsheng Zhu, Dilay Hazal Ayhan, Yi Shu, Ming Yan, Lili Zhang, Meng Tan, Yu Mu, Jun Li, Dian Meng, Jianxin Bian, Ke Wang, Lu Wang, Shaoying Chen, Ruidong Chen, Jingyun Jin, Bosheng Li, Xingping Zhang, Xing Wang Deng, Hang He, Li Guo

2024Nature Communications67 citationsDOIOpen Access PDF

Abstract

Chili pepper (Capsicum) is known for its unique fruit pungency due to the presence of capsaicinoids. The evolutionary history of capsaicinoid biosynthesis and the mechanism of their tissue specificity remain obscure due to the lack of high-quality Capsicum genomes. Here, we report two telomere-to-telomere (T2T) gap-free genomes of C. annuum and its wild nonpungent relative C. rhomboideum to investigate the evolution of fruit pungency in chili peppers. We precisely delineate Capsicum centromeres, which lack high-copy tandem repeats but are extensively invaded by CRM retrotransposons. Through phylogenomic analyses, we estimate the evolutionary timing of capsaicinoid biosynthesis. We reveal disrupted coding and regulatory regions of key biosynthesis genes in nonpungent species. We also find conserved placenta-specific accessible chromatin regions, which likely allow for tissue-specific biosynthetic gene coregulation and capsaicinoid accumulation. These T2T genomic resources will accelerate chili pepper genetic improvement and help to understand Capsicum genome evolution.

Topics & Concepts

TelomereGenomeBiologyGeneticsGapless playbackBiosynthesisDNAGenePhysicsCondensed matter physicsPlant Molecular Biology ResearchPlant Genetic and Mutation StudiesGenetic and Environmental Crop Studies