1. Discordant evolution of organellar genomes in peas (PisumL.)
- Author
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Gennadiy V. Vasiliev, Natalia V. Shatskaya, Oleg E. Kosterin, Vera S. Bogdanova, and Anatoliy V. Mglinets
- Subjects
Plant evolution ,Germplasm ,Mitochondrial DNA ,Nuclear gene ,Phylogenetic tree ,Evolutionary biology ,Nucleic acid sequence ,food and beverages ,Biology ,Plastid ,Genome - Abstract
Plastids and mitochondria have their own small genomes which do not undergo meiotic recombination and may have evolutionary fate different from each other and nuclear genome, thus highlighting interesting phenomena in plant evolution. We for the first time sequenced mitochondrial genomes of pea (PisumL.), in 38 accessions mostly representing diverse wild germplasm from all over pea geographical range. Six structural types of pea mitochondrial genome were revealed. From the same accessions, plastid genomes were sequenced. Bayesian phylogenetic trees based on the plastid and mitochondrial genomes were compared. The topologies of these trees were highly discordant implying not less than six events of hybridisation of diverged wild peas in the past, with plastids and mitochondria differently inherited by the descendants. Such discordant inheritance of organelles is supposed to have been driven by plastid-nuclear incompatibility, known to be widespread in pea wide crosses and apparently shaping the organellar phylogenies. The topology of a phylogenetic tree based on the nucleotide sequence of a nuclear geneHis5coding for a histone H1 subtype corresponds to the current taxonomy and resembles that based on the plastid genome. Wild peas (Pisum sativumsubsp.elatiuss.l.) inhabiting Southern Europe were shown to be of hybrid origin resulting from crosses of peas similar to those presently inhabiting south-east and north-east Mediterranean in broad sense.
- Published
- 2020
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