Horizontal Transfer of Entire Genomes via Mitochondrial Fusion in the Angiosperm <i>Amborella</i>

Danny W. Rice(Indiana University Bloomington), Andrew J. Alverson(Indiana University Bloomington), Aaron O. Richardson(Indiana University Bloomington), Gregory J. Young(Indiana University Bloomington), M. Virginia Sanchez‐Puerta(Indiana University Bloomington), Jérôme Munzinger(Institut de Recherche pour le Développement), Kerrie Barry(Joint Genome Institute), Jeffrey L. Boore(Joint Genome Institute), Yan Zhang(Pennsylvania State University), Claude W. dePamphilis(Pennsylvania State University), Eric B. Knox(Indiana University Bloomington), Jeffrey D. Palmer(Indiana University Bloomington)
Science
December 19, 2013
10.1126/science.1246275
Cited by 527Open Access
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Abstract

We report the complete mitochondrial genome sequence of the flowering plant Amborella trichopoda. This enormous, 3.9-megabase genome contains six genome equivalents of foreign mitochondrial DNA, acquired from green algae, mosses, and other angiosperms. Many of these horizontal transfers were large, including acquisition of entire mitochondrial genomes from three green algae and one moss. We propose a fusion-compatibility model to explain these findings, with Amborella capturing whole mitochondria from diverse eukaryotes, followed by mitochondrial fusion (limited mechanistically to green plant mitochondria) and then genome recombination. Amborella's epiphyte load, propensity to produce suckers from wounds, and low rate of mitochondrial DNA loss probably all contribute to the high level of foreign DNA in its mitochondrial genome.

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