Plant mitochondrial subfractions have different ability to import DNA

Abstract

It is known that mitochondrial population of living organisms is heterogeneous. Using the density gradient of Percoll or sucrose, we obtained and characterized two distinct mitochondrial subfractions (named “light” and “heavy” according to their sedimentation) from three plant species (Brassica rapa, Zea mays, and Arabidopsis thaliana). Electron microscopy showed that mitochondria of a light subfraction have a poorly developed cristae structure. The respiratory control of these mitochondria was reduced; however the degree of their outer membrane integrity remained high. These data suggest that mitochondrial subfractions purified in the density gradient differ in their maturity. We carried out DNA import assays to study the ability of these two subfractions for DNA transport. We have shown that the mitochondria of light subfraction in all three plant species uptakes DNA more efficiently than the mitochondria of heavy subfraction. In addition, import of DNA with different sizes into the light and heavy mitochondrial subfractions has different sensitivity to specific inhibitors of the voltage-dependent anion channel and adenine nucleotide translocase, proteins playing a central role in DNA transport across the mitochondrial membrane. The obtained results suggest that DNA import depends on organization of the transport system in the double mitochondrial membrane influenced by the maturity of the mitochondria.