Affiliation:
1. Department of Botany University of British Columbia Vancouver BC Canada
2. Royal Botanic Gardens, Kew, Richmond Surrey TW9 3DS UK
3. Naturalis Biodiversity Center, Darwinweg 2 2333 CR Leiden The Netherlands
4. Institute for Biodiversity and Ecosystem Dynamics University of Amsterdam Sciencepark 904 1098 XH Amsterdam The Netherlands
Abstract
AbstractPremiseSpecies in Thismiaceae can no longer photosynthesize and instead obtain carbon from soil fungi. Here we infer Thismiaceae phylogeny using plastid genome data and characterize the molecular evolution of this genome.MethodsWe assembled five Thismiaceae plastid genomes from genome skimming data, adding to previously published data for phylogenomic inference. We investigated plastid‐genome structural changes, considering locally colinear blocks (LCBs). We also characterized possible shifts in selection pressure in retained genes by considering changes in the ratio of nonsynonymous to synonymous changes (ω).ResultsThismiaceae experienced two major pulses of gene loss around the early diversification of the family, with subsequent scattered gene losses across descendent lineages. In addition to massive size reduction, Thismiaceae plastid genomes experienced occasional inversions, and there were likely two independent losses of the plastid inverted repeat (IR) region. Retained plastid genes remain under generally strong purifying selection (ω << 1), with significant and sporadic weakening or strengthening in several instances. The bifunctional trnE‐UUC gene of Thismia huangii may retain a secondary role in heme biosynthesis, despite a probable loss of functionality in protein translation. Several cis‐spliced group IIA introns have been retained, despite the loss of the plastid intron maturase, matK.ConclusionsWe infer that most gene losses in Thismiaceae occurred early and rapidly, following the initial loss of photosynthesis in its stem lineage. As a species‐rich, fully mycoheterotrophic lineage, Thismiaceae provide a model system for uncovering the unique and divergent ways in which plastid genomes evolve in heterotrophic plants.
Subject
Plant Science,Genetics,Ecology, Evolution, Behavior and Systematics
Cited by
6 articles.
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