Expanding the utility of transcriptome analysis for mutation detection in high-risk childhood precision oncology

  1. Chelsea Mayoh
  2. Paulette Barahona
  3. Angela Lin
  4. Lujing Cui
  5. Pamela Ajuyah
  6. Ann Altekoester
  7. Loretta MS Lau
  8. Dong-Anh Khuong-Quang
  9. Patricia Sullivan
  10. Akanksha Senapati
  11. Sumanth Nagabushan
  12. Ashleigh Sullivan
  13. Natacha Omer
  14. Andrew S Moore
  15. Wayne Nicholls
  16. Raelene Endersby
  17. Nicholas G Gottardo
  18. Geoffery B McCowage
  19. Luciano Dalla Pozza
  20. Jordan R Hansford
  21. Seong-Lin Khaw
  22. Paul J Wood
  23. Toby N Trahair
  24. Glenn M Marshall
  25. David S Ziegler
  26. Vanessa Tyrrell
  27. Michelle Haber
  28. Marie Wong
  29. Paul G Ekert
  30. Mark J Cowley
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Abstract

In precision oncology, whole transcriptome sequencing (RNA-seq) excels at identifying oncogenic fusions. Here, using a cohort of 477 high-risk paediatric tumours, we demonstrate that RNA-seq can identify all mutation classes found previously using whole genome sequencing (WGS) and provides additional functional insights into their pathogenicity. By incorporating reference-guided fusion, and reference-free structural variant (SV) detection algorithms with RNA abundance assessment, RNA-seq identified 96% of SVs and resolved 33 complex SVs that WGS failed to identify. Furthermore, RNA-seq identified 92% of all single nucleotide variants and small insertions and deletions. Importantly RNA-seq informed the pathogenicity assessment in 22% of variants through identification of allele specific expression or the functional consequence of splice-altering variants. The utility of RNA-seq extends beyond fusion identification to the interpretation of mutation pathogenicity and the discovery of important mutations that would otherwise go undetected. We propose that RNA-seq is an indispensable companion to WGS in precision medicine.

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