Structural variants (SVs) can contribute to oncogenesis through a variety of mechanisms. Despite their importance, the identification of SVs in cancer genomes remains challenging. Here, we present a framework that integrates optical mapping, high-throughput chromosome conformation capture (Hi-C), and whole-genome sequencing to systematically detect SVs in a variety of normal or cancer samples and cell lines. We identify the unique strengths of each method and demonstrate that only integrative approaches can comprehensively identify SVs in the genome. By combining Hi-C and optical mapping, we resolve complex SVs and phase multiple SV events to a single haplotype. Furthermore, we observe widespread structural variation events affecting the fu...
Chromatin is folded into successive layers to organize linear DNA. Genes within the same topological...
Hi-C technique has been shown to be a promising method to detect structural variations (SVs) in huma...
Chromatin is folded into successive layers to organize linear DNA. Genes within the same topological...
Structural variant (SV) differences between human genomes can cause germline and mosaic disease as w...
Genomic structural variations (SVs) are pervasive in many types of cancers. Characterizing their und...
Abstract Background The cancer genome is commonly altered with thousands of structural rearrangement...
A key mutational process in cancer is structural variation, in which rearrangements delete, amplify ...
A key mutational process in cancer is structural variation, in which rearrangements delete, amplify ...
Understanding genetic variation has emerged as a key research problem of the post-genomic era. Until...
Analysis of somatic alterations in cancer genomes has been accelerated through the rapid growth of t...
Motivation: Despite widespread prevalence of somatic structural variations (SVs) across most tumor t...
Genetic diseases are driven by aberrations of the human genome. Identification of such aberrations i...
Human papillomavirus (HPV) integration is the major contributor to cervical cancer (CC) development ...
Cancer is a group of diseases which are characterised and actuated by somatic mutations. In cancer t...
The incomplete identification of structural variants (SVs) from whole-genome sequencing data limits ...
Chromatin is folded into successive layers to organize linear DNA. Genes within the same topological...
Hi-C technique has been shown to be a promising method to detect structural variations (SVs) in huma...
Chromatin is folded into successive layers to organize linear DNA. Genes within the same topological...
Structural variant (SV) differences between human genomes can cause germline and mosaic disease as w...
Genomic structural variations (SVs) are pervasive in many types of cancers. Characterizing their und...
Abstract Background The cancer genome is commonly altered with thousands of structural rearrangement...
A key mutational process in cancer is structural variation, in which rearrangements delete, amplify ...
A key mutational process in cancer is structural variation, in which rearrangements delete, amplify ...
Understanding genetic variation has emerged as a key research problem of the post-genomic era. Until...
Analysis of somatic alterations in cancer genomes has been accelerated through the rapid growth of t...
Motivation: Despite widespread prevalence of somatic structural variations (SVs) across most tumor t...
Genetic diseases are driven by aberrations of the human genome. Identification of such aberrations i...
Human papillomavirus (HPV) integration is the major contributor to cervical cancer (CC) development ...
Cancer is a group of diseases which are characterised and actuated by somatic mutations. In cancer t...
The incomplete identification of structural variants (SVs) from whole-genome sequencing data limits ...
Chromatin is folded into successive layers to organize linear DNA. Genes within the same topological...
Hi-C technique has been shown to be a promising method to detect structural variations (SVs) in huma...
Chromatin is folded into successive layers to organize linear DNA. Genes within the same topological...