Multiplex generation and single-cell analysis of structural variants in mammalian genomes
Sudarshan Pinglay, Jean‐Benoît Lalanne, Riza M. Daza, Sanjay Kottapalli, Faaiz Quaisar, Jonas Koeppel, Riddhiman K. Garge, Xiaoyi Li, David Lee, Jay Shendure
Abstract
Studying the functional consequences of structural variants (SVs) in mammalian genomes is challenging because (i) SVs arise much less commonly than single-nucleotide variants or small indels and (ii) methods to generate, map, and characterize SVs in model systems are underdeveloped. To address these challenges, we developed Genome-Shuffle-seq, a method that enables the multiplex generation and mapping of thousands of SVs (deletions, inversions, translocations, and extrachromosomal circles) throughout mammalian genomes. We also demonstrate the co-capture of SV identity with single-cell transcriptomes, facilitating the measurement of SV impact on gene expression. We anticipate that Genome-Shuffle-seq will be broadly useful for the systematic exploration of the functional consequences of SVs on gene expression, the chromatin landscape, and three-dimensional nuclear architecture, while also initiating a path toward a minimal mammalian genome.