Intraspecific Chloroplast Genome Variation and Domestication Origins of Major Cultivars of Styphnolobium japonicum

Styphnolobium japonicum is a significant resource of ornamental and medicinal plants. In this study, we employed high-throughput sequencing to assemble nine chloroplast genomes of S. japonicum. We compared and reconstructed the phylogenetic relationships of these genomes, along with three publicly available chloroplast genomes. Our results showed that the length of the 12 S. japonicum chloroplast genomes ranged from 158,613 bp to 158,837 bp, all containing 129 unique functional genes. The genetic diversity within S. japonicum chloroplast genomes was relatively low, with π = 0.00029, Theta-W = 0.00028, and an indel frequency of 0.62 indels/1 kb. Among the four regions, the SSC region exhibited the highest genetic diversity and indel frequency, while the IR region had the lowest. Non-coding regions displayed greater genetic variation compared to coding regions, with a few highly variable regions identified. The phylogenetic tree constructed revealed that the major cultivars of S. japonicum originated from two genetic ‘sources. S. japonicum ‘JinhuaiJ2’ had an independent origin and showed close relatedness to S. japonicum var. violacea, S. japonicum var. japonicum, and S. japonicum f. oligophylla. On the other hand, other major cultivars shared a common genetic origin and were closely related to S. japonicum f. pendula. This study highlights the variability of chloroplast genomes within S. japonicum and provides insights into the genetic origins of major cultivars and their relationships with different varieties and forma.