Abstract
Raw transcriptomic data contain numerous RNA reads whose homology with template DNA doesn’t match canonical transcription. Transcriptome analyses usually ignore such noncanonical RNA reads. Here, analyses search for noncanonical mitochondrial RNAs systematically deleting 1 to 12 nucleotides after each transcribed nucleotide triplet, producing deletion-RNAs (delRNAs). We detected delRNAs in the human whole cell and purified mitochondrial transcriptomes, and in Genbank's human EST database corresponding to systematic deletions of 1 to 12 nucleotides after each transcribed trinucleotide. DelRNAs detected in both transcriptomes mapped along with 55.63% of the EST delRNAs. A bias exists for delRNAs covering identical mitogenomic regions in both transcriptomic and EST datasets. Among 227 delRNAs detected in these 3 datasets, 81.1% and 8.4% of delRNAs were mapped on mitochondrial coding and hypervariable region 2 of dloop. Del-transcription analyses of GenBank's EST database confirm observations from whole cell and purified mitochondrial transcriptomes, eliminating the possibility that detected delRNAs are false positives matches, cytosolic DNA/RNA nuclear contamination or sequencing artefacts. These detected delRNAs are enriched in frameshift-inducing homopolymers and are poor in frameshift-preventing circular code codons (a set of 20 codons which regulate reading frame detection, over- and underrepresented in coding and other frames of genes, respectively) suggesting a motif-based regulation of non-canonical transcription. These findings show that rare non-canonical transcripts exist. Such non canonical del-transcription does increases mitochondrial coding potential and non-coding regulation of intracellular mechanisms, and could explain the dark DNA conundrum.
Highlights
Raw transcriptomic data include RNA reads that do not correspond to canonical transcription of the genome [1]
To study noncanonical delRNAs, we focus on the mitochondrial genome because the entire mitogenome is transcribed i.e coding and non-coding sequences on both mitogenome strands are transcribed [52], and the short mitogenome is compatible with current computational limitations for analyses that consider transformations such as systematic deletions
The same principle produces delRNA3-4 (3 nucleotides transcribed followed by 4 deleted nucleotides), delRNA3-5 (3 nucleotides transcribed followed by 5 deleted nucleotides), delRNA3-6 (3 nucleotides transcribed followed by 6 nucleotide deletion) and so on until k = 12
Summary
Raw transcriptomic data include RNA reads that do not correspond to canonical transcription of the genome [1]. Details about delRNAs detected in the whole cell and purified mitochondrial transcriptome, i.e. the number of reads in BLASTN search for each delRNA, their position in the transformed mitogenome, percentage identity and the length of each delRNA for all deletion sizes are enclosed in S2 and S3 Files.
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