Complete chloroplast genome of the medicinal herb Veronicastrum axillare (Sieb. et Zucc.) Yamazaki and the phylogenetic relationship analysis within the tribe Veroniceae

Abstract Veronicastrum axillare (Sieb. et Zucc.) Yamazaki is a traditional medical plant with versatile biological activities. Here, we reported the complete chloroplast genome sequence of V. axillare with a total length of 152,691 bp, containing two IR regions of 25,765 bp each, an LSC region of 83,559 bp, and an SSC region of 17,602 bp. The genome encodes 131 genes, including 85 protein-coding genes, 37 tRNAs, eight rRNAs, and one pseudogene (ycf1). The overall GC content is 38.3%, with the highest content of 43.31% in IR region. Comparative analysis revealed 4 potential hotspots among V. axillare and other Veroniceae plants, providing potential markers for population investigations in the tribe Veroniceae. A total of 56 simple sequence repeats were identified in V. axillare. Phylogenetic analysis indicated a sister relationship between V. axillare and V. sibiricum, suggesting a close genetic relationship between the two Veronicastrum species. Our results provide basic genetic resources for investigating the evolutionary status of V. axillare within the tribe Veroniceae.

Veronicastrum axillare; tribe Veroniceae; complete chloroplast genome; phylogenetic analysis Veronicastrum axillare (Sieb. et Zucc.) Yamazaki 1957 is a perennial herb, which belongs to the tribe Veroniceae of the family Plantaginaceae. It has bent stems, hairless paper-like leaves, and axillary inflorescence. Although this species is primarily found in the grasslands of the mountainous regions of southeastern China, it has also spread to Japan . V. axillare has been used as a folk medicine named 'Fushuicao' to treat nephritic edema, cirrhotic ascites, venomous snakebite, and furuncles . Due to the paraphyletic subgenera and the lack of genome support, the phylogenetic relationships of the tribe Veroniceae were poorly understood (Albach and Meudt 2010). The complete chloroplast (cp) genome sequences of the four Veroniceae species provided valuable data for the elucidation of the classification and taxa delimitation among the Veroniceae plants (Choi et al. 2016;Maurya et al. 2020). The cp genome of V. axillare showed the sequenced fifth chloroplast genome in the tribe Veroniceae, resulting in the development of effective molecular markers for the Veronicastrum genus and the taxonomic relationships within the tribe Veroniceae.
We collected the V. axillare leaf sample from the Botanical Garden of Medicinal Plants of the Zhejiang Chinese Medical University in the Fuyang area of Zhejiang Province, China (30 05 0 2.4 00 N, 119 53 0 20.4 00 E). We submitted the leaf specimen at the Medicinal Herbarium Center of the Zhejiang

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Medical University (https://yxy.zcmu.edu.cn; Herbarium Code: MHCZCMU; Collector: Rubin Cheng, bio-thcheng@hotmail.com) under the voucher number PYH-2019032. We sequenced the extracted total genomic DNA using the Illumina Hiseq Platform according to our previous reports (Dong et al. 2021;He et al. 2021). In order to obtain the chloroplast genome of V. axillare, we trimmed the raw reads using Trimmomatic and assembled the resulting cleaned reads using metaSPAdes 3.13.0 with the cp genome of the homologous species of Veronicastrum sibiricum (NC_031345) as the reference genome (Choi et al. 2016). We used GeSeq to annotate the chloroplast genome and further confirmed it using BLAST (Tillich et al. 2017). We submitted the complete cp genome of V. axillare to GenBank (Accession Number: MW244757).
The length of the complete chloroplast (cp) genome of V. axillare was 152,691 bp, with a conserved quadripartite structure containing an LSC region (83,559 bp), an SSC region (17,602 bp), and two IR regions of 25,765 bp each. We identified 131 genes in V. axillare, including 85 protein-coding genes, 37 tRNAs, eight rRNAs, and one pseudogene (ycf1). The estimated overall base composition of the V. axillare cp genome was A (30.46%), C (19.44%), G (18.86%), and T (31.23%), thus exhibiting an obvious AT-richness (61.69%). The cp genome of V. axillare contained 16 duplicated genes in the IR region, including seven tRNAs, four rRNAs, and five protein-coding genes. The most frequently used amino acids were Leu (10.65%), followed by Ile (8.42%), Ser (7.93%), Gly (6.8%), and Arg (6.2%). The length of the tRNA genes in V. axillare varied between 61 and 92 nucleotides, with the GC content ranging from 36.07% to 64.86%. The comparative analysis revealed four mutational hotspots with Pi values higher than 0.08 among the cp genomes of V. axillare and other Veroniceae species. They were composed of one protein-coding gene and three gene spacers with the highest Pi value region of ndhF-rpl23. Accordingly, the variation of the non-coding region was significantly higher than the conservative protein coding region, while the variation of both LSC and SSC regions was greater than that of the IR region. Therefore, our studies have shown that the Veroniceae plants have high mutation hotspots among different species, thus providing potential markers for plant identification and taxa investigation ( Figure S1). Moreover, we identified 56 small single repeats in the cp genome of V. axillare, ranging from 10 to 18 bp.
The tribe Veroniceae contains 10 genera, of which Veronica, Veronicastrum, and Lagotis represent the largest genera containing over 300 plants, which were traditionally restricted to Scrophulariaceae. To further evaluate the phylogenetic relationships within the Veroniceae species, we performed the ML analysis based on the complete genome sequences of V. axillare, other representative Veroniceae species, Plantaginaceae, and Scrophulariaceae plants. The phylogenetic tree showed that V. axillare clustered together with V. sibiricum with high support value, thus suggesting a close genetic relationship between the two species ( Figure 1). Additionally, the two Veroniceae species exhibited a sister relationship with the group of Lagotis plants, thereby providing evidence for further revising the classification within the tribe Veroniceae (Figure 1). The monophyletic group of Veronica species formed a clade with Neopicrorhiza scrophulariiflora with strong statistical support, thus indicating a close relationship between the two genera. Furthermore, since the combined group of Veroniceae plants was clustered with Scrophulariaceae rather than Plantaginaceae, further investigation on the taxonomy of tribe Veroniceae is required. Therefore, our results provide the basic genomic data for not only promoting the development of molecular markers, but also furthering the investigation on the conservation and breeding programs of the Veroniceae species. the specimen of V. axillare for further molecular study. The plant material collection and experimental research were conducted according to the Plant Protection and Regulation of Zhejiang Chinese Medical University.

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