The complete chloroplast genome of Epimedium fargesii Franch. (Berberidaceae), a rare plant species endemic to China

Abstract Epimedium L. is a medicinally important herbaceous genus in the family Berberidaceae. Epimedium fargesii Franch. is only narrowly inhabited in the Daba Mountains in China. Here, we sequenced and assembled the first complete chloroplast genome of Epimedium fargesii Franch. The chloroplast genome of E. fargesii was 157,208 bp in length, with a total GC content of 38.77%. A total of 112 unique genes were identified, including 78 protein-coding genes, 30 tRNA genes, and four rRNA genes. Phylogenetic analysis indicated that E. fargesii formed a sister relationship with E. wushanense T. S. Ying. Our results provided fundamental data for further taxonomic and phylogenetic research of the genus Epimedium.

Epimedium L. is the largest herbaceous genus of family Berberidaceae, with more than 60 plant species distributed unevenly from North Africa (Algeria) to East Asia (Stearn 2002;Ying 2002). However, there is a long history of controversies over the infrageneric classification of Epimedium genus since Linnaeus first identified the Epimedium species, E. alpinum, in 1753 (Linnaeus 1753). The genus was divided into two subgenera (subgenus Rhizophyllum and subgenus Epimedium), four sections (section Diphyllum, section Macroceras, section Polyphyllum, and section Epimedium) based on the C-banding of chromosomes, flower and leaf morphology, and geographical distribution in the updated classification system proposed by Stearn (2002). Furthermore, section Diphyllum (the largest section which is comprised completely of more than 50 Chinese Epimedium species) was subdivided into four series based on floral morphology (Stearn 2002;De Smet et al. 2012). Epimedium plants are used as important medicinal plants in the traditional Chinese medicine, because their leaves, known as 'Herba Epimedii', have special nourishing effect on kidney, bones, and muscles. In recent years, their activities of anti-osteoporosis, antitumor, and improving immunological function have been verified with modern pharmacological studies (Cai et al. 2011;Ma et al. 2011;Tong et al. 2011;Jiang et al. 2015;Yang et al. 2019).
The taxonomic classification of genus Epimedium still remain an intractable status since the interspecific hybridization and gene introgression has greatly complicated the interspecific phylogenetic relationship. Chloroplast genomes are important tool used in phylogenetic analysis for their special advantages such as small size, mostly single-copied, moderate nucleotide substitution rate, and high conservation in terms of gene composition, genome structure, and collinearity (Zhang and Li 2011). Therefore, to characterize more chloroplast genomes of Epimedium species is critical for dissecting the phylogenetic relationship within Epimedium genus.
Epimedium fargesii Franch. is a species only distributed in the central part of the Daba Mountains (mainly in the Wuxi County, Chengkou County, and Kai County of Chongqing city, and the Wanyuan County of Sichuan province, China) and it is used as 'Herba Epimedii' by local people. In 1884, Franchet (French botanist) published E. fargesii based on the type sample collected by Paul Farges (a French missionary) (Franchet 1886). Epimedium fargesii is unique among Epimedium species on account of its reflexed, narrow lanceolate inner sepals, and stamens 8-10 mm long with filaments longer than anthers (this kind of stamen only so far occurs in E. fargesii, E. dolichostemon, and E. dewuense within Epimedium genus). In the current study, we reported the first chloroplast genome of E. fargesii in order to provide more useful data for phylogenetic and taxonomic research in the genus Epimedium.
For  (Doyle and Doyle 1987), and was then sheared to an average size of 300 bp for library construction using the VAHTSTM Universal DNA Library Pren Kit (ExCell Bio. Biological Technology Co., Ltd., Shanghai, China). Genome sequencing was conducted through the Illumina Novaseq 6000 platform (Illumina Inc., San Diego, CA), and 150 bp paired-end reads were generated. The assembly of chloroplast genome was performed on the GetOrganelle v1.5 program (Jin et al. 2018) with E. acuminatum (GenBank accession number: NC_029941) as reference. The annotation of chloroplast genome was performed through the online program CPGAVAS2 (Shi et al. 2019) and assisted with manual correction. The annotated genomic sequence was deposited into GenBank with an accession number MW483086.
For identification of phylogenetic position of E. fargesii, phylogenetic analysis was carried out using the complete chloroplast genome sequences of E. fargesii and other 10 species from the NCBI GenBank database. MAFFT v7 (Katoh et al. 2019) was applied for sequence alignment and then a maximum-likelihood tree was constructed by using IQ-TREE multicore v 2.0.3 (Minh et al. 2020) with Vancouveria planipetala Calloni as the outgroup species (Figure 1). The Phylogenetic tree demonstrated that E. fargesii formed a sister relationship with E. wushanense T. S. Ying. Our study provided essential data for future phylogenetic studies of Epimedium genus.

Disclosure statement
No potential conflict of interest was reported by the authors.

Data availability statement
The genome sequence data that support the findings of this study are openly available in GenBank of NCBI at https://www.ncbi.nlm.nih.gov/ under the accession no. MW483086. The associated numbers are PRJNA749733, SRR15254503, and SAMN20399110, respectively.