Abstract
Sophora tonkinensis belongs to genus Sophora of the Fabaceae family. It is mainly distributed in the ridge and peak regions of limestone areas in western China and has high medicinal value and important ecological functions. Wild populations of S. tonkinensis are in danger and need urgent conservation. Furthermore, wild S. tonkinensis resources are very limited relative to the needs of the market, and many adulterants are present on the market. Therefore, a method for authenticating S. tonkinensis and its adulterants at the molecular level is needed. Chloroplast genomes are valuable sources of genetic markers for phylogenetic analyses, genetic diversity evaluation, and plant molecular identification. In this study, we report the complete chloroplast genome of S. tonkinensis. The circular complete chloroplast genome was 154,644 bp in length, containing an 85,810 bp long single-copy (LSC) region, an 18,321 bp short single-copy (SSC) region and two inverted repeat (IR) regions of 50,513 bp. The S. tonkinensis chloroplast genome comprised 129 genes, including 83 protein-coding genes, 38 transfer RNA (tRNA) genes, and 8 ribosomal RNA (rRNA) genes. The structure, gene order and guanine and cytosine (GC) content of the S. tonkinensis chloroplast genome were similar to those of the Sophora alopecuroides and Sophora flavescens chloroplast genomes. A total of 1,760 simple sequence repeats (SSRs) were identified in the chloroplast genome of S. tonkinensis, and most of them (93.1%) were mononucleotides. Moreover, the identified SSRs were mainly distributed in the LSC region, accounting for 60% of the total number of SSRs, while 316 (18%) and 383 (22%) were located in the SSC and IR regions, respectively. Only one complete copy of the rpl2 gene was present at the LSC/IRB boundary, while another copy was absent from the IRA region because of the incomplete structure caused by IR region expansion and contraction. The phylogenetic analysis placed S. tonkinensis in Papilionoideae, sister to S. flavescens, and the genera Sophora and Ammopiptanthus were closely related. The complete genome sequencing and chloroplast genome comparative analysis of S. tonkinensis and its closely related species presented in this paper will help formulate effective conservation and management strategies as well as molecular identification approaches for this important medicinal plant.
Highlights
Sophora tonkinensis is an important medicinal plant species in the genus Sophora, which belongs to Papilionoideae, a subfamily of the Fabaceae
According to the total length of the assembled sequence, number of scaffolds and scaffold N50, the assembly results for multiple K-mers were evaluated comprehensively, and the optimal-K-mer data were selected as the final assembly results
The results showed that S. tonkinensis had size differences in the long single-copy (LSC), short single-copy (SSC) and inverted repeat (IR) regions compared with those in other closely related chloroplast genomes of Papilionoideae species
Summary
Sophora tonkinensis is an important medicinal plant species in the genus Sophora, which belongs to Papilionoideae, a subfamily of the Fabaceae. This species is distributed mainly in Baise city, Jinchengjiang city, and Donglan County of Guangxi province as well as Guizhou and Yunnan Provinces of China[1]. A good understanding of chloroplast genomic information will make it easy to study genetic variation in and design reasonable conservation strategies for wild populations of S. tonkinensis. Chloroplast genomic information for S. tonkinensis will provide candidate DNA barcodes for the authentication of S. tonkinensis and the identification of its adulterants. The sequence was compared with other known chloroplast genome sequences using bioinformatics analysis, and the evolutionary position of S. tonkinensis among the Papilionoideae was confirmed
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
