Structural variation of the complete chloroplast genome and plastid phylogenomics of the genus Asteropyrum (Ranunculaceae)
Two complete chloroplast genome sequences of Asteropyrum , as well as those of 25 other species from Ranunculaceae, were assembled using both Illumina and Sanger sequencing methods to address the structural variation of the cp genome and the controversial systematic position of the genus. Synteny an...
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Veröffentlicht in: | Scientific reports 2019-10, Vol.9 (1), p.15285-13, Article 15285 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | Two complete chloroplast genome sequences of
Asteropyrum
, as well as those of 25 other species from Ranunculaceae, were assembled using both Illumina and Sanger sequencing methods to address the structural variation of the cp genome and the controversial systematic position of the genus. Synteny and plastome structure were compared across the family. The cp genomes of the only two subspecies of
Asteropyrum
were found to be differentiated with marked sequence variation and different inverted repeat-single copy (IR-SC) borders. The plastomes of both subspecies contains 112 genes. However, the IR region of subspecies
peltatum
carries 27 genes, whereas that of subspecies
cavaleriei
has only 25 genes. Gene inversions, transpositions, and IR expansion-contraction were very commonly detected in Ranunculaceae. The plastome of
Asteropyrum
has the longest IR regions in the family, but has no gene inversions or transpositions. Non-coding regions of the cp genome were not ideal markers for inferring the generic relationships of the family, but they may be applied to interpret species relationship within the genus. Plastid phylogenomic analysis using complete cp genome with Bayesian method and partitioned modeling obtained a fully resolved phylogenetic framework for Ranunculaceae.
Asteropyrum
was detected to be sister to
Caltha
, and diverged early from subfamily Ranunculoideae. |
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ISSN: | 2045-2322 2045-2322 |
DOI: | 10.1038/s41598-019-51601-2 |