Abundant Mitochondrial Genome Diversity, Population Differentiation and Convergent Evolution in Pines

Abundant Mitochondrial Genome Diversity, Population Differentiation and Convergent Evolution in Pines

Junyuan Wu^a, Konstantin V. Krutovskii^a, and Steven H. Strauss^a
^a Department of Forest Science, Oregon State University, Corvallis, Oregon 97331-7501

Corresponding author: Steven H. Strauss, Department of Forest Science, Oregon State University, Corvallis, OR 97331-7501., strauss{at}fsl.orst.edu (E-mail).

Communicating editor: A. H. D. BROWN

We examined mitochondrial DNA polymorphisms via the analysisof restriction fragment length polymorphisms in three closelyrelated species of pines from western North America: knobcone(Pinus attenuata Lemm.), Monterey (P. radiata D. Don), and bishop(P. muricata D. Don). A total of 343 trees derived from 13 populationswere analyzed using 13 homologous mitochondrial gene probesamplified from three species by polymerase chain reaction. Twenty-eightdistinct mitochondrial DNA haplotypes were detected and no commonhaplotypes were found among the species. All three species showedlimited variability within populations, but strong differentiationamong populations. Based on haplotype frequencies, genetic diversitywithin populations (H_S) averaged 0.22, and population differentiation(G_ST and ${theta}$ ) exceeded 0.78. Analysis of molecular variance alsorevealed that >90% of the variation resided among populations.For the purposes of genetic conservation and breeding programs,species and populations could be readily distinguished by uniquehaplotypes, often using the combination of only a few probes.Neighbor-joining phenograms, however, strongly disagreed withthose based on allozymes, chloroplast DNA, and morphologicaltraits. Thus, despite its diagnostic haplotypes, the genomeappears to evolve via the rearrangement of multiple, convergentsubgenomic domains.

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