Project description:Spirodela polyrhiza (9509) was grown under replete conditions for 10d, subject to media without phosphate or control for 24h, and then sequenced.

Project description:Spirodela polyrhiza overview

Project description:MicroRNAs (miRNAs) are a class of small, endogenous non-coding RNAs, which play key roles in a variety of developmental and physiological processes by regulating gene expressions at post-transcriptional or translational levels. The objective of our work was to explore conserved and novel miRNAs in Spirodela at the whole-genome level, and further characterize their potential roles in gene regulation. 1 sample

Project description:5-methylcytosine (5mC) is a modified base often described as necessary for the proper regulation of genes and transposons and for the maintenance of genome integrity in plants. However, the extent of this dogma is limited by the current phylogenetic sampling of land plant species diversity. Here, we report that a monocot plant, Spirodela polyrhiza, has lost CG gene body methylation, genome-wide CHH methylation, and the presence or expression of several genes in the highly conserved RNA-directed DNA methylation (RdDM) pathway. It has also lost the CHH methyltransferase CHROMOMETHYLASE 2. Consequently, the transcriptome is depleted of 24-nucleotide, heterochromatic, small interfering RNAs that act as guides for the deposition of 5mC to RdDM-targeted loci in all other currently sampled angiosperm genomes. Although the genome displays low levels of genome-wide 5mC primarily at LTR retrotransposons, CG maintenance methylation is still functional. In contrast, CHG methylation is weakly maintained even though H3K9me2 is present at loci dispersed throughout the euchromatin and highly enriched at regions likely demarcating pericentromeric regions. Collectively, these results illustrate that S. polyrhiza is maintaining CG and CHG methylation mostly at repeats. S. polyrhiza reproduces rapidly through clonal propagation in aquatic environments, which we hypothesize may enable low levels of maintenance methylation to persist in large populations.

Project description:Spirodela polyrhiza genome sequencing project

Project description:Spirodela polyrhiza mitochondrial genome

Project description:Spirodela polyrhiza clone 9509 sequenced with Oxford Nanopore

Project description:Spirodela polyrhiza isolate:sp9512 Genome sequencing

Project description:Spirodela polyrhiza strain:9509 Genome sequencing

Project description:MicroRNAs (miRNAs) are a class of small, endogenous non-coding RNAs, which play key roles in a variety of developmental and physiological processes by regulating gene expressions at post-transcriptional or translational levels. The objective of our work was to explore conserved and novel miRNAs in Spirodela at the whole-genome level, and further characterize their potential roles in gene regulation.