The mitochondrial genome of the selfed progeny of a plant regenerated from long-term somatic tissue culture displays specific structural rearrangements characterized by the appearance of novel restriction fragments. A mitochondrial DNA library was constructed from this selfed progeny in the SalI site of cosmid pHC79 and the novel fragments were subsequently studied. They were shown to arise from reciprocal recombination events involving DNA sequences present in the parental plant. The regions of recombination were sequenced and the nucleotide sequences were aligned with those of the presumptive parental fragments. We characterized an imperfect short repeated DNA sequence, 242 bp long, within which a 7-bp DNA repeat could act as a region of recombination. The use of PCR technology allowed us to show that these fragments were present in both parental plants and tissue cultures as low-abundance sequence arrangements.
The 38 sequences of the ATPase c/III/9 gene determined in bacteria, fungi, mammals, and higher plants have been used to construct phylogenetic trees by distance matrix and parsimony methods (checked by bootstrapping); alignments have been performed on the deduced amino-acid sequences and then transferred back to the nucleotide sequences. Three lineages stand out: (1) eubacteria (except cyanobacteria and alpha purple bacteria), (2) chloroplasts, together with cyanobacteria, and (3) mitochondria together with nuclei and alpha purple bacteria. The clear monophyly of the mitochondrial/nuclear lineage, taken all together, strongly suggests that the nuclear copies of the gene now residing in the eukaryotic nucleus originate from a mitochondrial transfer. Within this lineage, metaphytes emerge late and as a cohesive group, after fungi (as a dispersed group) and metazoa, yielding an order that markedly differs from that obtained through typical RNA nuclear molecules. The possible biphyletic origin of mitochondria based on mitochondrial rRNA sequences is not evidenced by these sequences. Internal branches within both the chloroplastic and the mitochondrial lineages are consistent with botanical evolutionary schemes based on morphological characters. In spite of its relatively small size, the ATPase c/III/9 gene therefore displays remarkable properties as a phylogenetic index and adds a new tool for molecular evolutionary reconstructions, especially within the metaphytes.
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