Chimeric RNAs are transcripts generated by gene fusion and intergenic splicing events, thus comprising nucleotide sequences from different genes. Recent studies have shown that some chimeric RNAs can play a role in cancer development, and so can be used as diagnostics biomarkers when specifically expressed in cancerous cells and tissues. Most gene fusion prediction tools rely on an initial alignment step. However, alignments might be biased, especially for chimeric reads, creating many false positives. Therefore, developing alignment-free prediction methods of fusion genes would be helpful and may provide new insights into the genomic breakage phenomenon in the cell. In this direction, machine learning could pave the way for new solutions, due to their success in predicting genomic regulatory elements and alternative junction events from the genomic context. To date, however, these techniques have had a marginal supporting role, and, furthermore, manually-curated data sets, that are crucial for model training, are often expensive, unreliable or simply unavailable. Here we propose a novel ML-based method that learn to recognize the hidden patterns that allow to identify chimeric RNAs deriving from oncogenic gene fusions. Preliminary comparison with another state-ofthe- art method shows promising results.
Bonizzoni, P., De Felice, C., Pirola, Y., Rizzi, R., Zaccagnino, R., Zizza, R. (2023). Identification of Chimeric RNAs: a novel machine learning perspective. Intervento presentato a: The 12th International Conference on Computational Advances in Bio and Medical Sciences (ICCABS 2023) - December 11th to 13th 2023, Oklahoma, USA.
Identification of Chimeric RNAs: a novel machine learning perspective
Bonizzoni, P;Pirola, Y;Rizzi, R;
2023
Abstract
Chimeric RNAs are transcripts generated by gene fusion and intergenic splicing events, thus comprising nucleotide sequences from different genes. Recent studies have shown that some chimeric RNAs can play a role in cancer development, and so can be used as diagnostics biomarkers when specifically expressed in cancerous cells and tissues. Most gene fusion prediction tools rely on an initial alignment step. However, alignments might be biased, especially for chimeric reads, creating many false positives. Therefore, developing alignment-free prediction methods of fusion genes would be helpful and may provide new insights into the genomic breakage phenomenon in the cell. In this direction, machine learning could pave the way for new solutions, due to their success in predicting genomic regulatory elements and alternative junction events from the genomic context. To date, however, these techniques have had a marginal supporting role, and, furthermore, manually-curated data sets, that are crucial for model training, are often expensive, unreliable or simply unavailable. Here we propose a novel ML-based method that learn to recognize the hidden patterns that allow to identify chimeric RNAs deriving from oncogenic gene fusions. Preliminary comparison with another state-ofthe- art method shows promising results.
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