1. Complete chloroplast genomes of Impatiens cyanantha and Impatiens monticola: Insights into genome structures, mutational hotspots, comparative and phylogenetic analysis with its congeneric species
- Author
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Wen Yonghui, Wang Qiong, Roshani Budhathoki, Chao Luo, Jiyuan Shi, Huang Meijuan, Huseyin Yer, Haiquan Huang, Bo Yan, Yang Li, and Xinyi Li
- Subjects
Evolutionary Genetics ,Chloroplasts ,Plant Genomes ,Plant Science ,Plant Genetics ,Biochemistry ,Genome ,RNA, Transfer ,Plant Genomics ,Phylogeny ,Data Management ,Plant Proteins ,Multidisciplinary ,Phylogenetic tree ,Software Engineering ,Phylogenetic Analysis ,Genomics ,Phylogenetics ,Nucleic acids ,Molecular phylogenetics ,Medicine ,Engineering and Technology ,Transfer RNA ,Research Article ,Biotechnology ,Computer and Information Sciences ,Science ,Bioengineering ,Biology ,Genome Complexity ,Computer Software ,Chloroplast Genome ,Genetics ,Evolutionary Systematics ,Non-coding RNA ,Genome, Chloroplast ,Balsaminaceae ,Taxonomy ,NdhF ,Evolutionary Biology ,Biology and Life Sciences ,Computational Biology ,Ribosomal RNA ,biology.organism_classification ,Introns ,RNA, Ribosomal ,Evolutionary biology ,Mutation ,RNA ,Plant Biotechnology ,Impatiens - Abstract
Impatiens L., the largest genus in the family Balsaminaceae with approximately 1000 species, is a controversial and complex genus that includes many economically important species well known for medicinal and ornamental values. However, there is limited knowledge of molecular phylogeny and chloroplast genomics, and uncertainties still exist at a taxonomic level. In this study, we have assembled four chloroplast genomics specimens of Impatiens cyanantha and Impatiens monticola, which are found at the different altitudes of Guizhou and Yunnan in China, and compared them with previously published three wild Balsaminaceae species (Impatiens piufanensis, Impatiens glandlifera, and Hydrocera triflora). The complete chloroplast genome sequences ranged from 152,236 bp (I. piufanensis) to 154,189 bp (H. triflora) and encoded 115 total distinct genes, of which 81 were protein-coding, 30 were distinct transfer RNA genes(tRNA), and 4 were ribosomal RNA genes (rRNA). A comparative analysis of I. cyanantha (Guizhou) vs. I. cyanantha (Yunnan) and I. monticola (Guizhou) vs. I. monticola (Yunnan) revealed minor changes in lengths; however, similar gene contents, gene orders, and GC contents existed among them. Interestingly, highly coding and non-coding genes, and regions matK, psbK, atpH-atpI, trnC-trnT, petN, psbM, atpE, rbcL, accD, psaL, rps3-rps19, ndhG-ndhA,rpl16, rpoB, ndhB, ndhF, ycf1, and ndhH were found, which could be suitable for identification of species and phylogenetic studies. During the comparison between I. cyanantha (Guizhou) and I. cyanantha (Yunnan), we observed that the rps4, ycf2, ndhF, ycf1, and rpoC2 genes underwent positive selection. Meanwhile, in the comparative study of I. monticola (Guizhou) vs. I. monticola (Yunnan), The accD and ycf1 genes were positively selected. Additionally, phylogenetic relationships based on maximum likelihood (ML) and Bayesian inference (BI) among whole chloroplast genomes showed that a sister relationship with I. monticola (Guizhou) and I. monticola (Yunnan) formed a clade with I.piufanensis proving their close connection. Besides, I.cyanantha (Guizhou) and I. cyanantha (Yunnan) formed a clade with I. glandlifera. Along with the findings and the results, the current study might provide valuable significant genomic resources for systematics and evolution of the genus impatiens in different altitudes of regions.
- Published
- 2021
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