1. The Highly Reduced Plastome of Mycoheterotrophic Sciaphila (Triuridaceae) Is Colinear with Its Green Relatives and Is under Strong Purifying Selection
- Author
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Marybel Soto Gomez, Vivienne K. Y. Lam, and Sean W. Graham
- Subjects
0106 biological sciences ,Pandanales ,Genome, Plastid ,Molecular Sequence Data ,010603 evolutionary biology ,01 natural sciences ,Genome ,Evolution, Molecular ,03 medical and health sciences ,dN/dS ratio ,plastid genome evolution ,Magnoliopsida ,Dioscoreales ,mycoheterotrophy ,Genome Size ,Phylogenetics ,Genetics ,Plastid ,Selection, Genetic ,genome reduction ,Genome size ,Ecology, Evolution, Behavior and Systematics ,Phylogeny ,030304 developmental biology ,0303 health sciences ,biology ,food and beverages ,gene loss ,15. Life on land ,biology.organism_classification ,Sciaphila ,Triuridaceae ,Research Article - Abstract
The enigmatic monocot family Triuridaceae provides a potentially useful model system for studying the effects of an ancient loss of photosynthesis on the plant plastid genome, as all of its members are mycoheterotrophic and achlorophyllous. However, few studies have placed the family in a comparative context, and its phylogenetic placement is only partly resolved. It was also unclear whether any taxa in this family have retained a plastid genome. Here, we used genome survey sequencing to retrieve plastid genome data for Sciaphila densiflora (Triuridaceae) and ten autotrophic relatives in the orders Dioscoreales and Pandanales. We recovered a highly reduced plastome for Sciaphila that is nearly colinear with Carludovica palmata, a photosynthetic relative that belongs to its sister group in Pandanales, Cyclanthaceae-Pandanaceae. This phylogenetic placement is well supported and robust to a broad range of analytical assumptions in maximum-likelihood inference, and is congruent with recent findings based on nuclear and mitochondrial evidence. The 28 genes retained in the S. densiflora plastid genome are involved in translation and other nonphotosynthetic functions, and we demonstrate that nearly all of the 18 protein-coding genes are under strong purifying selection. Our study confirms the utility of whole plastid genome data in phylogenetic studies of highly modified heterotrophic plants, even when they have substantially elevated rates of substitution.
- Published
- 2015