Single-cell barcoding technologies enable genome sequencing of thousands of individual cells in parallel, but with extremely low sequencing coverage (<0.05×) per cell. While the total copy number of large multi-megabase segments can be derived from such data, important allele-specific mutations—such as copy-neutral loss of heterozygosity (LOH) in cancer—are missed. We introduce copy-number haplotype inference in single cells using evolutionary links (CHISEL), a method to infer allele- and haplotype-specific copy numbers in single cells and subpopulations of cells by aggregating sparse signal across hundreds or thousands of individual cells. We applied CHISEL to ten single-cell sequencing datasets of ~2,000 cells from two patients with breast cancer. We identified extensive allele-specific copy-number aberrations (CNAs) in these samples, including copy-neutral LOHs, whole-genome duplications (WGDs) and mirrored-subclonal CNAs. These allele-specific CNAs affect genomic regions containing well-known breast-cancer genes. We also refined the reconstruction of tumor evolution, timing allele-specific CNAs before and after WGDs, identifying low-frequency subpopulations distinguished by unique CNAs and uncovering evidence of convergent evolution.

Zaccaria, S., Raphael, B. (2021). Characterizing allele- and haplotype-specific copy numbers in single cells with CHISEL. NATURE BIOTECHNOLOGY, 39(2), 207-214 [10.1038/s41587-020-0661-6].

Characterizing allele- and haplotype-specific copy numbers in single cells with CHISEL

Zaccaria S.;
2021

Abstract

Single-cell barcoding technologies enable genome sequencing of thousands of individual cells in parallel, but with extremely low sequencing coverage (<0.05×) per cell. While the total copy number of large multi-megabase segments can be derived from such data, important allele-specific mutations—such as copy-neutral loss of heterozygosity (LOH) in cancer—are missed. We introduce copy-number haplotype inference in single cells using evolutionary links (CHISEL), a method to infer allele- and haplotype-specific copy numbers in single cells and subpopulations of cells by aggregating sparse signal across hundreds or thousands of individual cells. We applied CHISEL to ten single-cell sequencing datasets of ~2,000 cells from two patients with breast cancer. We identified extensive allele-specific copy-number aberrations (CNAs) in these samples, including copy-neutral LOHs, whole-genome duplications (WGDs) and mirrored-subclonal CNAs. These allele-specific CNAs affect genomic regions containing well-known breast-cancer genes. We also refined the reconstruction of tumor evolution, timing allele-specific CNAs before and after WGDs, identifying low-frequency subpopulations distinguished by unique CNAs and uncovering evidence of convergent evolution.
Articolo in rivista - Articolo scientifico
Algorithms; Alleles; Breast Neoplasms; Cell Line, Tumor; DNA Copy Number Variations; DNA, Neoplasm; Evolution, Molecular; Female; Gene Dosage; Genetic Heterogeneity; Haplotypes; Humans; Single-Cell Analysis
English
2021
39
2
207
214
reserved
Zaccaria, S., Raphael, B. (2021). Characterizing allele- and haplotype-specific copy numbers in single cells with CHISEL. NATURE BIOTECHNOLOGY, 39(2), 207-214 [10.1038/s41587-020-0661-6].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/508683
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