The chloroplast genome of the allotriploid, Paeonia × lemoinei cv. Oukan, and its phylogenetic implications

The chloroplast genome of the allotriploid, Paeonia × lemoinei cv. Oukan, and its phylogenetic implications

The chloroplast genome of Paeonia × lemoinei cv. Oukan, a newly identified allotriploid from Paeonia sect. Moutan, shows typical tree peony features in size, structure, and gene content. A maximum-likelihood phylogenetic analysis revealed cv. Oukan and the known triploid cv. Shouanhong clustered int...

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Bibliographic Details
Main Authors: Mingyang Hao, Jiang Wu, Mengyao Wang, Ying Chen, Qi Qiao, Sophie Newmarch, Erqiang Wang, Richard Winkworth, Bingyou Fan
Format: Article
Language:English
Published: Taylor & Francis Group 2025-07-01
Series:Mitochondrial DNA. Part B. Resources
Subjects:
Paeonia × lemoinei
cv. Oukan
triploid
chloroplast genome
phylogenetic relationship
Online Access:https://www.tandfonline.com/doi/10.1080/23802359.2025.2519229
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Summary:The chloroplast genome of Paeonia × lemoinei cv. Oukan, a newly identified allotriploid from Paeonia sect. Moutan, shows typical tree peony features in size, structure, and gene content. A maximum-likelihood phylogenetic analysis revealed cv. Oukan and the known triploid cv. Shouanhong clustered into subsect. Delavayanae and subsect. Vaginatae, respectively. Cv. Oukan is closely related to its maternal parent cv. High Noon, while autotriploid cv. Shouanhong is sister to P. ostii but genetically distinct. This study provides genomic resources and phylogenetic insights for the first allotriploid tree peony, suggesting lineages in both subsects could serve as maternal parents for breeding triploid cultivars.
ISSN:2380-2359

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