Transcriptomics

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Antisense Transcripts Impede Uridylation-induced Exonucleolytic Degradation to Generate Guide RNAs


ABSTRACT: Small non-coding RNA biogenesis typically involves cleavage of structured precursors by RNase III-like endonucleases. However, guide RNAs that direct U-insertion/deletion mRNA editing in mitochondria of trypanosomes maintain 5′ triphosphate characteristic of transcription start site and possess U-tail indicative of 3′ processing and uridylation. Here, we identified a protein complex composed of RET1 TUTase and 3′-5′ DSS1 exonuclease, and three additional subunits. This complex, termed mitochondrial 3′ processome (MPsome), is responsible for primary uridylation of ~800-nt gRNA precursors, their processive degradation to a mature length of 50-60 nt, and secondary U-tail addition. Both strands of gRNA gene are transcribed giving rise to sense and antisense precursors of similar size. Head-to-head hybridization of these transcripts blocks symmetrical 3′-5′ degradation at the fixed distance from the double-stranded region. Together, our findings suggest a model in which gRNA is derived from the 5′ extremity of a primary molecule by uridylation-induced, antisense transcription-controlled exonucleolytic degradation.

ORGANISM(S): Trypanosoma brucei

PROVIDER: GSE71292 | GEO | 2016/02/08

SECONDARY ACCESSION(S): PRJNA290850

REPOSITORIES: GEO

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