The first complete mitochondrial genome assembly and comparative analysis of the fern Blechnaceae family: Blechnopsis orientalis

Yutong Huang Yanping Xing Wenxiao Men Hefei Xue Wenjuan Hou Yanchang Huang Deqiang Dou Tingguo Kang Yanyun Yang ^* Liang Xu ^*

• School of Pharmacy, Liaoning University of Traditional Chinese Medicine, Da Lian, China

Blechnopsis orientalis is a medicinal and edible fern species belonging to the Blechnaceae family. Currently, the complete mitochondrial genome of B. orientalis, as well as those of other Blechnaceae species, remains unreported, and studies on fern mitochondrial genome are limited. This study aims to sequence and assemble B. orientalis mitochondrial genome to address this gap in Blechnaceae research, enrich mitochondrial genome data of ferns, and investigate the unique characteristics of fern mitochondrial genome. The results revealed that the mitochondrial genome of B. orientalis has a complex structure comprising 80 contigs, with a total length of 501,663 bp and a GC content of 48.53%. A total of 179 genes were identified, including 40 protein-coding genes (PCGs), 98 tRNA genes, 40 rRNA genes, and one pseudogene (rps11). Phylogenetic analysis based on PCGs from both chloroplast genome and mitochondrial genome aligned with the relationships described in the Pteridophyte Phylogeny Group I (PPG I) system. Further comparison with mitochondrial genome of ten other reported fern and lycophyte species revealed that the mitochondrial genome PCGs in these plants are highly conserved, despite significant genome rearrangements among mitochondrial genome. The findings of this study provide valuable insights into the evolutionary analysis of B. orientalis and contribute to understanding the characteristics and evolutionary relationships of mitochondrial genome in ferns and lycophytes.