Beyond the Powerhouse: Integrating Mitonuclear Evolution, Physiology, and Theory in Comparative Biology.

Havird, Justin C; Weaver, Ryan J; Milani, Liliana; Ghiselli, Fabrizio; Greenway, Ryan; Ramsey, Adam J; Jimenez, Ana G; Dowling, Damian K; Hood, Wendy R; Montooth, Kristi L; Estes, Suzanne; Schulte, Patricia M; Sokolova, Inna M; Hill, Geoffrey E

Beyond the Powerhouse: Integrating Mitonuclear Evolution, Physiology, and Theory in Comparative Biology.

Havird, Justin C;Weaver, Ryan J;Milani, Liliana;Ghiselli, Fabrizio;Greenway, Ryan;Ramsey, Adam J;Jimenez, Ana G;Dowling, Damian K;Hood, Wendy R;Montooth, Kristi L;Estes, Suzanne;Schulte, Patricia M;Sokolova, Inna M;Hill, Geoffrey E;

integrative and comparative biology 2019

286

havird2019beyondintegrative

Abstract

Eukaryotes are the outcome of an ancient symbiosis and as such, eukaryotic cells fundamentally possess two genomes. As a consequence, gene products encoded by both nuclear and mitochondrial genomes must interact in an intimate and precise fashion to enable aerobic respiration in eukaryotes. This genomic architecture of eukaryotes is proposed to necessitate perpetual coevolution between the nuclear and mitochondrial genomes to maintain coadaptation, but the presence of two genomes also creates the opportunity for intracellular conflict. In the collection of papers that constitute this symposium volume, scientists working in diverse organismal systems spanning vast biological scales address emerging topics in integrative, comparative biology in light of mitonuclear interactions.

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