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优化单细胞的稀疏测序以进行高度多重的拷贝数分析。

Optimizing sparse sequencing of single cells for highly multiplex copy number profiling.

作者信息

Baslan Timour, Kendall Jude, Ward Brian, Cox Hilary, Leotta Anthony, Rodgers Linda, Riggs Michael, D'Italia Sean, Sun Guoli, Yong Mao, Miskimen Kristy, Gilmore Hannah, Saborowski Michael, Dimitrova Nevenka, Krasnitz Alexander, Harris Lyndsay, Wigler Michael, Hicks James

机构信息

Cold Spring Harbor Laboratory, Cold Spring Harbor, New York 11724, USA; Department of Molecular and Cellular Biology, Stony Brook University, Stony Brook, New York 11790, USA;

Cold Spring Harbor Laboratory, Cold Spring Harbor, New York 11724, USA;

出版信息

Genome Res. 2015 May;25(5):714-24. doi: 10.1101/gr.188060.114. Epub 2015 Apr 9.

DOI:10.1101/gr.188060.114
PMID:25858951
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4417119/
Abstract

Genome-wide analysis at the level of single cells has recently emerged as a powerful tool to dissect genome heterogeneity in cancer, neurobiology, and development. To be truly transformative, single-cell approaches must affordably accommodate large numbers of single cells. This is feasible in the case of copy number variation (CNV), because CNV determination requires only sparse sequence coverage. We have used a combination of bioinformatic and molecular approaches to optimize single-cell DNA amplification and library preparation for highly multiplexed sequencing, yielding a method that can produce genome-wide CNV profiles of up to a hundred individual cells on a single lane of an Illumina HiSeq instrument. We apply the method to human cancer cell lines and biopsied cancer tissue, thereby illustrating its efficiency, reproducibility, and power to reveal underlying genetic heterogeneity and clonal phylogeny. The capacity of the method to facilitate the rapid profiling of hundreds to thousands of single-cell genomes represents a key step in making single-cell profiling an easily accessible tool for studying cell lineage.

摘要

单细胞水平的全基因组分析最近已成为剖析癌症、神经生物学和发育过程中基因组异质性的强大工具。要真正具有变革性,单细胞方法必须能够经济地处理大量单细胞。对于拷贝数变异(CNV)而言这是可行的,因为CNV测定仅需要稀疏的序列覆盖。我们结合了生物信息学和分子方法来优化单细胞DNA扩增和文库制备以进行高度多重测序,从而产生了一种方法,该方法可以在Illumina HiSeq仪器的单个泳道上生成多达一百个单个细胞的全基因组CNV图谱。我们将该方法应用于人类癌细胞系和活检的癌组织,从而证明了其效率、可重复性以及揭示潜在遗传异质性和克隆系统发育的能力。该方法促进对数百至数千个单细胞基因组进行快速分析的能力代表了使单细胞分析成为研究细胞谱系的易于使用的工具的关键一步。

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