Comparative mitochondrial genome analysis reveals the evolutionary rearrangement mechanism in Brassica.

Abstract

The genus Brassica has many species that are important for oil, vegetable and other food products. Three mitochondrial genome types (mitotype) originated from its common ancestor. In this paper, a B.nigra mitochondrial main circle genome with 232,407bp was generated through de novo assembly. Synteny analysis showed that the mitochondrial genomes of B.rapa and B.oleracea had a better syntenic relationship than B.nigra. Principal components analysis and development of a phylogenetic tree indicated maternal ancestors of three allotetraploid species in Us triangle of Brassica. Diversified mitotypes were found in allotetraploid B.napus, in which napus-type B.napus was derived from B.oleracea, while polima-type B.napus was inherited from B.rapa. In addition, the mitochondrial genome of napus-type B.napus was closer to botrytis-type than capitata-type B.oleracea. The sub-stoichiometric shifting of several mitochondrial genes suggested that mitochondrial genome rearrangement underwent evolutionary selection during domestication and/or plant breeding. Our findings clarify the role of diploid species in the maternal origin of allotetraploid species in Brassica and suggest the possibility of breeding selection of the mitochondrial genome.