Litcius/Paper detail

Unscrambling cancer genomes via integrated analysis of structural variation and copy number

Charles Shale, Daniel Cameron, Jonathan Baber, Marie Wong, Mark J. Cowley, Anthony T. Papenfuss, Edwin Cuppen, Peter Priestley

2022Cell Genomics90 citationsDOIOpen Access PDF

Abstract

Complex somatic genomic rearrangements and copy number alterations are hallmarks of nearly all cancers. We have developed an algorithm, LINX, to aid interpretation of structural variant and copy number data derived from short-read, whole-genome sequencing. LINX classifies raw structural variant calls into distinct events and predicts their effect on the local structure of the derivative chromosome and the functional impact on affected genes. Visualizations facilitate further investigation of complex rearrangements. LINX allows insights into a diverse range of structural variation events and can reliably detect pathogenic rearrangements, including gene fusions, immunoglobulin enhancer rearrangements, intragenic deletions, and duplications. Uniquely, LINX also predicts chained fusions that we demonstrate account for 13% of clinically relevant oncogenic fusions. LINX also reports a class of inactivation events that we term homozygous disruptions that may be a driver mutation in up to 9% of tumors and may frequently affect PTEN, TP53, and RB1.

Topics & Concepts

Structural variationEnhancerCopy-number variationBiologyGenomeGeneGeneticsGene dosageChromosomeComputational biologyGene duplicationGene expressionCancer Genomics and DiagnosticsGenomics and Rare DiseasesGenomic variations and chromosomal abnormalities