Integrated analysis of three newly sequenced fern chloroplast genomes: Genome structure and comparative analysis |
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| Authors: | Ruifeng Fan Wei Ma Shilei Liu Qingyang Huang |
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| Institution: | 1. School of Pharmacy, Heilongjiang University of Chinese Medicine, Harbin China ; 2. Experimental Teaching & Practical Training Center, Heilongjiang University of Chinese Medicine, Harbin China ; 3. Department of Ecology, Institute of Natural Resources and Ecology, Heilongjiang Academy of Science, Harbin China |
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| Abstract: | BackgroundSome ferns have medicinal properties and are used in therapeutic interventions. However, the classification and phylogenetic relationships of ferns remain incompletely reported. Considering that chloroplast genomes provide ideal information for species identification and evolution, in this study, three unpublished and one published ferns were sequenced and compared with other ferns to obtain comprehensive information on their classification and evolution.Materials and MethodsThe complete chloroplast genomes of Dryopteris goeringiana (Kunze) Koidz, D. crassirhizoma Nakai, Athyrium brevifrons Nakai ex Kitagawa, and Polystichum tripteron (Kunze) Presl were sequenced using the Illumina HiSeq 4,000 platform. Simple sequence repeats (SSRs), nucleotide diversity analysis, and RNA editing were investigated in all four species. Genome comparison and inverted repeats (IR) boundary expansion and contraction analyses were also performed. The relationships among the ferns were studied by phylogenetic analysis based on the whole chloroplast genomes.ResultsThe whole chloroplast genomes ranged from 148,539 to 151,341 bp in size and exhibited typical quadripartite structures. Ten highly variable loci with parsimony informative (Pi) values of > 0.02 were identified. A total of 75–108 SSRs were identified, and only six SSRs were present in all four ferns. The SSRs contained a higher number of A + T than G + C bases. C‐to‐U conversion was the most common type of RNA editing event. Genome comparison analysis revealed that single‐copy regions were more highly conserved than IR regions. IR boundary expansion and contraction varied among the four ferns. Phylogenetic analysis showed that species in the same genus tended to cluster together with and had relatively close relationships.ConclusionThe results provide valuable information on fern chloroplast genomes that will be useful to identify and classify ferns, and study their phylogenetic relationships and evolution. |
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| Keywords: | Chloroplast genome Fern Phylogenetic tree RNA editing Simple sequence repeat |
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