Pan-genome and phylogenomic analyses highlight Hevea species delineation and rubber trait evolution
Yongjun Fang, Xiaohu Xiao, Jishan Lin, Qiang Lin, Jiang Wang, Kaiye Liu, Zhonghua Li, Jianfeng Xing, Zhenglin Liu, Baiyu Wang, Yiying Qi, Xiangyu Long, Xia Zeng, Yanshi Hu, Jiyan Qi, Yunxia Qin, J Yang, Yi Zhang, Shengmin Zhang, De Ye, Jisen Zhang, Jianquan Liu, Chaorong Tang
Abstract
The para rubber tree (Hevea brasiliensis) is the world’s sole commercial source of natural rubber, a vital industrial raw material. However, the narrow genetic diversity of this crop poses challenges for rubber breeding. Here, we generate high-quality de novo genome assemblies for three H. brasiliensis cultivars, two H. brasiliensis wild accessions, and three other Hevea species (H. nitida, H. pauciflora, and H. benthamiana). Through analyzing genomes of 94 Hevea accessions, we identify five distinct lineages that do not align with their previous species delineations. We discover multiple accessions with hybrid origins between these lineages, indicating incomplete reproductive isolation between them. Only two out of four wild lineages have been introduced to commercial rubber cultivars. Furthermore, we reveal that the rubber production traits emerged following the development of a large REF/SRPP gene cluster and its functional specialization in rubber-producing laticifers within this genus. These findings would enhance rubber breeding and benefit research communities. The para rubber tree is the world’s sole commercial source of natural rubber. Here, the authors assemble the pangenome based on five genomes of H. brasiliensis and three genomes of other Hevea species, and reveal species delineation and rubber trait evolution through phylogenomic analyses.