Chloroplast-nuclear genome interaction drives asymmetric inverted repeats in chloroplast genome of Huperzia

Abstract

Huperzia plants are important natural medicine species that have attracted increased amounts of attention due to the presence of huperzine A (Hup A), which efficiently, selectively, and reversibly inhibits acetylcholinesterase activity. However, due to the complexity of the genome structure and lack of genetic information, the phylogenetic and evolutionary relationships of Huperzia species are still unclear. In this study, seven chloroplast genome structures of Huperzia were verified and comparatively analyzed, and the phylogenetic relationships between Huperzia and other related ferns were evaluated. The results showed that a 58 kb insertion in the middle of the IRb region in the seven chloroplast genomes led to large differences in sequence size, GC content and tRNA number between IRa and IRb. All seven chloroplast genomes exhibited asymmetric structural conformations in the IR regions. We used sequence alignment and screening of the organelle and nuclear genomes to identify the source of the gene. The inserted sequence had no homologous region with the mitochondrial genome, and the same sequence as another segment was found in the nuclear genome. Then, the chloroplast genomes of Huperzia were comparatively analyzed. Phylogenetic tree showed that Phlegmariurus and Huperzia were closely related and belonged to the same branch. H. javanica and Huperzia serrata are closely related. From the perspective of phylogenetic tree, their phylogenetic relationship is closely related to geographical distribution. In conclusion, this study provides insights into the interaction mechanism between chloroplast genome and nuclear genome and the phylogeny of Huperzia. In addition, by comparing the chloroplast genomes of Huperzia, we analyzed its genetic diversity and provided important molecular information for the protection of these endangered species.