The complete chloroplast genome sequence of Ehretia dicksonii Hance (Ehretiaceae)

Abstract Ehretia dicksonii_Hance 1862 is a deciduous botany of Ehretiaceae. In this work, the complete chloroplast (cp) genome sequence of E. dicksonii was probed by next generation sequencing in an effort to provide genomic resources useful for promoting its conservation. The complete cp genome of E. dicksonii is 156,623 bp in length, including a large single-copy (LSC) region of 86,853 bp, and a small single-copy (SSC) region of 18,150 bp. It contains 133 genes, including 37 tRNA genes, 8 rRNA genes, and 88 protein-coding genes. The overall GC content of E. dicksonii chloroplast genome is 37.85%. The phylogenetic analysis suggests that E. dicksonii is in the clade of Ehretiaceae other than Boraginaceae. Also, E. dicksonii has a close relationship with Ehretia acuminata_Brown 1810 in Ehretiaceae.

Ehretia dicksonii is a deciduous botany of the family Ehretiaceae. It is about 15 m high, 20 cm in diameter at breast height; mainly distributing in dense forests of the fertile soil at the foot of the mountain at an altitude around 125-600 m in Southwest, South and East of China. E. dicksonii is valued for its ecological and medicinal purposes, its bark can be used as raw materials for subsidence of a swelling (Liu and Wu 2013). The leaf blade of E. dicksonii abaxially densely and minutely hispid, hairs discoid at base, extremely scabrous, adaxially densely pubescent. It is an appropriative tree species for urban greening and border tree, especially for dust retaining (Wang et al. 1989;Zhu et al. 2003). However, there has been little progress on its complete chloroplast genome for clarifying its taxonomic status. The objective of this work was to explore the intrinsic distinction and in an effort to prove its taxonomic status in genus Ehretia. Also, to reveal the complete genome sequence of E. dicksonii could play an important role in the protection, development and utilization of its resources.
The fresh leaves of E. dicksonii were collected from the campus of Nanjing Forestry University, Jiangsu Province (E 118 48 0 33", N 32 4 0 45") in China. A specimen was deposited at Nanjing Forestry University (contact person: Xuehong Ma; email: xuehongma@njfu.edu.cn) under the voucher number NF2021040. According to the International Union for Conservation of Nature (IUCN) policy on endangered species research, the sample collection and the study was conducted with permission from Arboretum of Nanjing Forestry University. Then total genomic DNA was extracted with Plant DNA Kit (Genepioneer Biotechnologies, Nanjing, China). The complete cp genome sequence of E. dicksonii (GeneBank accession number: MZ555766) was characterized based on Illumina pairend sequencing data to provide a valuable complete cp genomic resource. The DNA fragments were passivated, repaired and bonded by ultrasonic wave and selected by agarose gel electrophoresis. The sample of genome sequencing library was formed by PCR amplification, which was carried out on Illumina Novaseq platform by Nanjing Genepioneer Biotechnologies Inc. (Nanjing, China), and read long for PE150 sequencing.
The original reading was filtered by fastp (version 0.20.0), and the clean data were assembled into chloroplast genome using SPAdes (Bankevich et al. 2012). Next, the reference sequence (Genebank accession number: MF179500.1) was used for quality control after assembly. Finally, the assembled genome was annotated using CpGAVAS (Liu et al. 2012).
To reveal the phylogenetic evolution of E. dicksonii, the phylogenetic tree (phylogram) was constructed based on 4 cp genomes from Ehretiaceae, 7 cp genomes from Boraginaceae and 1 cp genome from Carlemanniaceae as outgroups.
After sequence aligment by MAFFT (Rozewicki et al. 2019), IQTREE (Gao et al. 2018) was used to perform maximum Likelihood (ML) tree with the TVM þ FþR3 model. The bootstrap method was used to test the reliability of phylogeny with 1000 replicates. The phylogenetic analysis result supported that Ehretiaceae and Boraginaceae are in 2 clades and belong to distinct taxa, E. dicksonii and E. acuminata are sister species, and they are in relative late differentiation stage in the clade of Ehretiaceae ( Figure 1). As E. dicksonii had a close relationship with E. acuminata in Ehretiaceae, it can be inferred that E. dicksonii probably contains similar natural products with E. acuminata (Li et al. 2010), which can promote the study of its resource value, which needs to be further studied.

Disclosure statement
No potential conflict of interest was reported by the author(s).

Author contributions
Among the members of the author group, Xiaogang Xu, Lili Tong contributed to substantial conception or design of the work; Yao Cheng and Lu Tian were in charge of acquisition, analysis, and interpretation of data for the work; Xiaogang Xu, Chongli Xia and Yao Cheng contributed to manuscript preparation (Drafting the work or revising it critically for important intellectual content); Lili Tong, Xiaogang Xu and Chongli Xia contributed to final approval of the version to be published. All authors agree on the final version and to be accountable for all aspects of the work. Data availability statement