Ongoing gene transfer from chloroplasts to mitochondria in tobacco

Author:

Odahara Masaki1,Mori Maai1,Numata Keiji1

Affiliation:

1. RIKEN Center for Sustainable Resource Science

Abstract

Abstract Angiosperm mitochondrial genomes have highly complex and diverse structures that are partly due to frequent insertions of nuclear and chloroplast DNA (cpDNA) into mitochondrial DNA (mtDNA). This suggests the existence of mechanisms for gene transfer from chloroplasts to mitochondria, but these have yet to be discovered. In this study, we aimed to detect chloroplast-to-mitochondrion gene transfer by analyzing the translocation of a marker gene, sul, encoding a bacterial dihydropteroate synthase that confers sulfonamide resistance in tobacco (Nicotiana tabacum), to mtDNA. First, we created tobacco chloroplast transformants in which sul, surrounded on both sides by ~ 1 kb of mitochondrial homologous sequences that enable targeted integration into mtDNA, was introduced into the chloroplast genome. Heat shock enhanced sul expression in the transformants, suggesting that chloroplast degradation stimulates gene transfer from chloroplasts to mitochondria. Shoot regeneration using the heat-shocked chloroplast transformants under sulfadiazine selection resulted in several transformants showing moderately resistant to sulfadiazine. Deep sequencing analysis of the target mitochondrial locus detected sul in the SR plants with an integration efficiency of 0.0007–0.0036%, and we validated the results by ruling out two types of artifactual outcomes, PCR jumping and sul integration into nuclear mitochondrial DNA (NuMT). From these results, we propose that gene transfer from chloroplasts to mitochondria is ongoing in tobacco.

Publisher

Research Square Platform LLC

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