AUTHOR=Yudina Sophia V. , Schelkunov Mikhail I. , Nauheimer Lars , Crayn Darren , Chantanaorrapint Sahut , Hroneš Michal , Sochor Michal , Dančák Martin , Mar Shek-Shing , Luu Hong Truong , Nuraliev Maxim S. , Logacheva Maria D. 

TITLE=Comparative Analysis of Plastid Genomes in the Non-photosynthetic Genus Thismia Reveals Ongoing Gene Set Reduction

JOURNAL=Frontiers in Plant Science

VOLUME=12

YEAR=2021

URL=https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2021.602598

DOI=10.3389/fpls.2021.602598

ISSN=1664-462X

ABSTRACT=<p>Heterotrophic plants provide intriguing examples of reductive evolution. This is especially evident in the reduction of their plastid genomes, which can potentially proceed toward complete genome loss. Several milestones at the beginning of this path of degradation have been described; however, little is known about the latest stages of plastome reduction. Here we analyze a diversity of plastid genomes in a set of closely related non-photosynthetic plants. We demonstrate how a gradual loss of genes shapes the miniaturized plastomes of these plants. The subject of our study, the genus <italic>Thismia</italic>, represents the mycoheterotrophic monocot family Thismiaceae, a group that may have experienced a very ancient (60–80 mya) transition to heterotrophy. In all 18 species examined, the plastome is reduced to 14–18 kb and is highly AT-biased. The most complete observed gene set includes <italic>accD</italic>, seven ribosomal protein genes, three rRNA, and two tRNA genes. Different clades of <italic>Thismia</italic> have undergone further gene loss (complete absence or pseudogenization) compared to this set: in particular, we report two independent losses of <italic>rps2</italic> and <italic>rps18</italic>.</p>