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Rp3: Ribosome profiling-assisted proteogenomics improves coverage and confidence during microprotein discovery

Eduardo Vieira de Souza, Angie L. Bookout, Christopher A. Barnes, Brendan Miller, Pablo Machado, Luiz Augusto Basso, Cristiano Valim Bizarro, Alan Saghatelian

2024Nature Communications17 citationsDOIOpen Access PDF

Abstract

There has been a dramatic increase in the identification of non-canonical translation and a significant expansion of the protein-coding genome. Among the strategies used to identify unannotated small Open Reading Frames (smORFs) that encode microproteins, Ribosome profiling (Ribo-Seq) is the gold standard for the annotation of novel coding sequences by reporting on smORF translation. In Ribo-Seq, ribosome-protected footprints (RPFs) that map to multiple genomic sites are removed since they cannot be unambiguously assigned to a specific genomic location. Furthermore, RPFs necessarily result in short (25-34 nucleotides) reads, increasing the chance of multi-mapping alignments, such that smORFs residing in these regions cannot be identified by Ribo-Seq. Moreover, it has been challenging to identify protein evidence for Ribo-Seq. To solve this, we developed Rp3, a pipeline that integrates proteogenomics and Ribosome profiling to provide unambiguous evidence for a subset of microproteins missed by current Ribo-Seq pipelines. Here, we show that Rp3 maximizes proteomics detection and confidence of microprotein-encoding smORFs.

Topics & Concepts

ProteogenomicsComputational biologyProfiling (computer programming)Confidence intervalComputer scienceBiologyBioinformaticsGeneticsMedicineGenomicsGenomeInternal medicineGeneOperating systemRNA and protein synthesis mechanismsGenomics and Phylogenetic StudiesRNA modifications and cancer
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