Chloroplast genome resolution and phylogenetic analysis of Ardisia crispa var. amplifolia and Ardisia crispa var. dielsii
10.16438/j.0513-4870.2022-0874
- VernacularTitle:大叶百两金和细柄百两金叶绿体全基因组解析及系统发育分析
- Author:
Xian-fa ZENG
;
Chang LIU
;
Xiao-ying YANG
;
Qing YU
;
Shi-lun FU
;
Teng-yun YAN
;
Xiang PU
- Publication Type:Research Article
- Keywords:
italic>Ardisia;
italic>A. crispa var. amplifolia;
italic>A. crispa var. dielsii;
chloroplast genome;
phylogeny
- From:
Acta Pharmaceutica Sinica
2023;58(1):217-228
- CountryChina
- Language:Chinese
-
Abstract:
italic>Ardisia crispa (Thunb.) A. DC. is a traditional Miao medicinal herb with significant therapeutic effects in the treatment of sore throat, tonsillitis, edema of nephritis and bruising and rheumatism, etc. Ardisia crispa var. amplifolia and Ardisia crispa var. dielsii are varieties of A. crispa. A. crispa var. amplifolia and A. crispa var. dielsii are controversial in terms of species evolutionary relationships and taxonomic identification. In this study, we sequenced the whole genome sequences of A. crispa var. amplifolia and A. crispa var. dielsii chloroplasts using Illumina platform, assembled, annotated and characterized them, compared the structural features and degree of variation among chloroplast genomes using bioinformatics methods, and also downloaded constructing phylogenetic trees to analyze the phylogenetic relationships of chloroplasts in Primulaceae and Myrsinaceae using whole genome sequence information. The results showed that the complete chloroplast genome sequences of A. crispa var. amplifolia and A. crispa var. dielsii were 156 749 bp and 156 748 bp in length, with 132 genes annotated, including 87 protein-coding genes; the codon preference of A/U was greater than that of G/C; The differences in the coding regions of rps15 and rpoB genes in the comparative genome analysis can be used as loci for molecular identification of the two species; the differences in the coding regions of ycf1, ycf2, rpoC1, ycf3, petD and rpl16 genes in the chloroplast genome compared with those of the same genus can be used as loci for identification of the genus. In the phylogenetic results, A. crispa var. amplifolia and A. crispa var. dielsii were clustered together with 100% support, indicating that they are closely related. In this research, we analyzed the chloroplast genome structure and phylogenetic relationships of A. crispa var. amplifolia and A. crispa var. dielsii, providing an important theoretical basis for their molecular identification, genetic variation, breeding and phylogenetic analysis.
