Journal
Nature Communications, 2020
Authors
Ferran Nadeu, Rut Mas-de-Les-Valls, Alba Navarro, Romina Royo, Silvia Martín, Neus Villamor, Helena Suárez-Cisneros, Rosó Mares, Junyan Lu, Anna Enjuanes, Alfredo Rivas-Delgado, Marta Aymerich, Tycho Baumann, Dolors Colomer, Julio Delgado, Ryan D Morin, Thorsten Zenz, Xose S Puente, Peter J Campbell, Sílvia Beà, Francesco Maura, Elías Campo

Immunoglobulin (Ig) gene rearrangements and oncogenic translocations are routinely assessed during the characterization of B cell neoplasms and stratification of patients with distinct clinical and biological features, with the assessment done using Sanger sequencing, targeted next-generation sequencing, or fluorescence in situ hybridization (FISH). Currently, a complete Ig characterization cannot be extracted from whole-genome sequencing (WGS) data due to the inherent complexity of the Ig loci. Here, we introduce IgCaller, an algorithm designed to fully characterize Ig gene rearrangements and oncogenic translocations from short-read WGS data. Using a cohort of 404 patients comprising different subtypes of B cell neoplasms, we demonstrate that IgCaller identifies both heavy and light chain rearrangements to provide additional information on their functionality, somatic mutational status, class switch recombination, and oncogenic Ig translocations. Our data thus support IgCaller to be a reliable alternative to Sanger sequencing and FISH for studying the genetic properties of the Ig loci.

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