Rajanikanth Govindarajulu1, Matthew Parks2, Jacob A Tennessen3, Aaron Liston2, Tia-Lynn Ashman1. 1. Department of Biological Sciences, University of Pittsburgh, Pittsburgh, Pennsylvania 15260 USA. 2. Department of Botany and Plant Pathology, Oregon State University, Corvallis, Oregon 97331 USA. 3. Department of Integrative Biology, Oregon State University, Corvallis, Oregon 97331 USA.
Abstract
PREMISE OF THE STUDY: Molecular phylogenies derived from all three plant genomes can provide insight into the evolutionary history of plant groups influenced by reticulation. We sought to reconstruct mitochondrial exome, chloroplast, and nuclear genome phylogenies for octoploid Fragaria and their diploid ancestors and to document patterns of incongruence between and within the cytoplasmic genomes and interpret these in the context of evolutionary origin of the octoploid strawberries. METHODS: Using a genome-skimming approach, we assembled chloroplast genomes and mitochondrial exomes, and we used the POLiMAPS method to assemble nuclear sequence for octoploid species and constructed phylogenies from all three genomes. We assessed incongruence between and within cytoplasmic genomes using topology-based phylogenetic incongruence tests. KEY RESULTS: The incongruent cytoplasmic genome phylogeny with respect to the placement of octoploids suggests potential breakage in linkage disequilibrium of cytoplasmic genomes during allopolyploid origin of the octoploids. Furthermore, a single mitochondrial chimeric gene with a putative role in cytoplasmic male sterility yields a phylogeny that is inconsistent with the rest of the mitochondrial genome but consistent with the chloroplast phylogeny, suggesting intracellular gene transfer between heteroplasmic mitochondria, possibly driven by selection to overcome the effects of mito-nuclear incompatibility in octoploid origins. CONCLUSIONS: This work expands on the current understanding of evolutionary history of the octoploid ancestors of cultivated strawberry. It demonstrates phylogenetic incongruence between cytoplasmic genomes in octoploids with respect to diploid ancestors, indicating breakage in linkage disequilibrium of cytoplasmic genomes. We discuss potential organism-level processes that may have contributed to the observed incongruence in Fragaria.
PREMISE OF THE STUDY: Molecular phylogenies derived from all three plant genomes can provide insight into the evolutionary history of plant groups influenced by reticulation. We sought to reconstruct mitochondrial exome, chloroplast, and nuclear genome phylogenies for octoploid Fragaria and their diploid ancestors and to document patterns of incongruence between and within the cytoplasmic genomes and interpret these in the context of evolutionary origin of the octoploid strawberries. METHODS: Using a genome-skimming approach, we assembled chloroplast genomes and mitochondrial exomes, and we used the POLiMAPS method to assemble nuclear sequence for octoploid species and constructed phylogenies from all three genomes. We assessed incongruence between and within cytoplasmic genomes using topology-based phylogenetic incongruence tests. KEY RESULTS: The incongruent cytoplasmic genome phylogeny with respect to the placement of octoploids suggests potential breakage in linkage disequilibrium of cytoplasmic genomes during allopolyploid origin of the octoploids. Furthermore, a single mitochondrial chimeric gene with a putative role in cytoplasmic male sterility yields a phylogeny that is inconsistent with the rest of the mitochondrial genome but consistent with the chloroplast phylogeny, suggesting intracellular gene transfer between heteroplasmic mitochondria, possibly driven by selection to overcome the effects of mito-nuclear incompatibility in octoploid origins. CONCLUSIONS: This work expands on the current understanding of evolutionary history of the octoploid ancestors of cultivated strawberry. It demonstrates phylogenetic incongruence between cytoplasmic genomes in octoploids with respect to diploid ancestors, indicating breakage in linkage disequilibrium of cytoplasmic genomes. We discuss potential organism-level processes that may have contributed to the observed incongruence in Fragaria.
Authors: Tia-Lynn Ashman; Jacob A Tennessen; Rebecca M Dalton; Rajanikanth Govindarajulu; Matthew H Koski; Aaron Liston Journal: G3 (Bethesda) Date: 2015-10-19 Impact factor: 3.154
Authors: Kelly J Vining; Natalia Salinas; Jacob A Tennessen; Jason D Zurn; Daniel James Sargent; James Hancock; Nahla V Bassil Journal: PeerJ Date: 2017-08-30 Impact factor: 2.984
Authors: Michael A Hardigan; Mitchell J Feldmann; Anne Lorant; Kevin A Bird; Randi Famula; Charlotte Acharya; Glenn Cole; Patrick P Edger; Steven J Knapp Journal: Front Plant Sci Date: 2020-02-07 Impact factor: 5.753