Abstract
The annotation of the mammalian protein coding genome is incomplete. Arbitrary open reading frame (ORF) size restriction and the absolute requirement for a methionine codon as the sole initiator of translation, have constrained identification of potentially important transcripts with non-canonical protein coding potential1,2. Using unbiased transcriptomic approaches in macrophages responding to bacterial infection, we show widespread ribosome association with a large number of RNAs that were previously annotated as “non-protein coding”. Although the ability of such non-canonical ORFs to encode functional protein is controversial3,4, we identify a plethora of novel short and non-ATG initiated ORFs with the ability to generate stable and spatially distinct proteins. Importantly, we show that the translation of a novel ORF ‘hidden’ within the long non-coding RNA Aw112010 is essential for the orchestration of mucosal immunity during both bacterial infection and colitis. Together this work expands our interpretation of the protein coding genome and demonstrates the critical nature of proteinaceous products generated from non-canonical ORFs to the immune response in vivo. We therefore propose that the misannotation of non-canonical ORF-containing genes as non-coding RNAs may obscure the essential role of a multitude of previously undiscovered protein coding genes in immunity and disease.
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