Intracellular gene transfer events restricted to the genus Convallaria within the Asparagaceae family: Possible mechanisms and potential as genetic markers for biographical studies.

Abstract

Intracellular gene transfer among plant genomes is a common phenomenon. Due to their high conservation and high plastid membrane integrity, chloroplast (cp) genomes incorporate foreign genetic material very rarely. Convallaria is a small monocotyledonous genus consisting of C. keiskei, C. majalis and C. montana. Here, we characterized, analyzed and identified 3.3 and 3.7\u202fkb of mitochondrial DNA sequences in the plastome (MCP) of C. majalis and C. montana, respectively. We identified 6\u202fbp and 23\u202fbp direct repeats and mitochondrial pseudogenes, with rps3, rps19 and rpl10 identified in the MCP region. Additionally, we developed novel plastid molecular genetic markers to differentiate Convallaria spp. based on 21 populations. BEAST and biogeographical analyses suggested that Convallaria separated into Eurasian and North American lineages during the middle Pliocene and originated in East Asia. Vicariance in the genus was followed by dispersal into Europe and southeastern North America. These analyses indicate that the MCP event was restricted to the genus Convallaria of Asparagaceae, in contrast to similar events that occurred in its common ancestors with other families of land plants. However, further mitochondrial and population studies are necessary to understand the integration of the MCP region and gene flow in the genus Convallaria.