Abstract
BackgroundFunctional characterisation of the compact genome of the model organism Caenorhabditis elegans remains incomplete despite its sequencing 20 years ago. The last decade of research has seen a tremendous increase in the number of non-coding RNAs identified in various organisms. While we have mechanistic understandings of small non-coding RNA pathways, long non-coding RNAs represent a diverse class of active transcripts whose function remains less well characterised.ResultsBy analysing hundreds of published transcriptome datasets, we annotated 3392 potential lncRNAs including 143 multi-exonic loci that showed increased nucleotide conservation and GC content relative to other non-coding regions. Using CRISPR/Cas9 genome editing, we generated deletion mutants for ten long non-coding RNA loci. Using automated microscopy for in-depth phenotyping, we show that six of the long non-coding RNA loci are required for normal development and fertility. Using RNA interference-mediated gene knock-down, we provide evidence that for two of the long non-coding RNA loci, the observed phenotypes are dependent on the corresponding RNA transcripts.ConclusionsOur results highlight that a large section of the non-coding regions of the C. elegans genome remains unexplored. Based on our in vivo analysis of a selection of high-confidence lncRNA loci, we expect that a significant proportion of these high-confidence regions is likely to have a biological function at either the genomic or the transcript level.
Highlights
Functional characterisation of the compact genome of the model organism Caenorhabditis elegans remains incomplete despite its sequencing 20 years ago
Long non-coding RNA annotation in C. elegans We investigated 209 publicly available RNA-Seq datasets from diverse developmental stages (Additional file 1) to annotate de novo non-coding transcripts in C. elegans
After filtering for size, coding potential and overlap with existing genes, we identified 3392 long (> 200 nt) non-coding RNAs expressed across C. elegans development (Additional file 2)
Summary
Functional characterisation of the compact genome of the model organism Caenorhabditis elegans remains incomplete despite its sequencing 20 years ago. While we have mechanistic understandings of small non-coding RNA pathways, long non-coding RNAs represent a diverse class of active transcripts whose function remains less well characterised. Transcription is not limited to the protein-coding regions of eukaryotic genomes, but instead has been observed to be pervasive in all organisms that have been studied so far. C. elegans has been invaluable for the discovery of multiple non-coding RNA pathways and is an important model organism for genetic studies. Experimental characterisation of C. elegans lncRNAs has been limited [18,19,20] and only recently a comprehensive genetic analysis of these lncRNAs have been conducted which identified 23 physiologically functional lncRNAs [21]
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