Atypical DNA methylation, sRNA size distribution and female gametogenesis correlate with genome compaction in Utricularia gibba

Abstract

SummaryThe most studied DNA methylation pathway in plants is the RNA Directed DNA Methylation (RdDM), which is a conserved mechanism that involves noncoding-RNAs to control the expansion of intergenic regions. However, little is known about relationship between plant genome size reductions and DNA methylation.Because the compact genome size of the carnivorous plant Utricularia gibba, we investigate in this plant the noncoding-RNA landscape and DNA methylation through a combination of cytological, evolutionary, and genome-wide transcriptomic and methylation approaches.We report an unusual distribution of noncoding RNAs in U. gibba in comparison with other characterized angiosperms, which correlated with a lower level of global genome methylation, as determined by a novel strategy based on long-read DNA sequencing and corroborated by whole-genome bisulfite analysis. Moreover, found that genes involved in the RdDM pathway may not be functionally active in U. gibba, including a truncated DICER-LIKE 3 (DCL3), involved in the production of 24-nt small-RNAs.Our findings suggest that selective pressure to conserve a fully functional RdDM pathway might be reduced in compact genomes and a defective DCL3 correlate with a decreased proportion of 24-nt small-RNAs and developmental alterations in U. gibba, which could represent an initial step in the evolution of apomixis.