纳升反应器可改善单细胞基因组的多重置换扩增。

Nanoliter reactors improve multiple displacement amplification of genomes from single cells.

作者信息

Marcy Yann, Ishoey Thomas, Lasken Roger S, Stockwell Timothy B, Walenz Brian P, Halpern Aaron L, Beeson Karen Y, Goldberg Susanne M D, Quake Stephen R

机构信息

Department of Bioengineering, Stanford University, Stanford, California, USA.

出版信息

PLoS Genet. 2007 Sep;3(9):1702-8. doi: 10.1371/journal.pgen.0030155.

DOI:10.1371/journal.pgen.0030155

PMID:17892324

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1988849/

Abstract

Since only a small fraction of environmental bacteria are amenable to laboratory culture, there is great interest in genomic sequencing directly from single cells. Sufficient DNA for sequencing can be obtained from one cell by the Multiple Displacement Amplification (MDA) method, thereby eliminating the need to develop culture methods. Here we used a microfluidic device to isolate individual Escherichia coli and amplify genomic DNA by MDA in 60-nl reactions. Our results confirm a report that reduced MDA reaction volume lowers nonspecific synthesis that can result from contaminant DNA templates and unfavourable interaction between primers. The quality of the genome amplification was assessed by qPCR and compared favourably to single-cell amplifications performed in standard 50-microl volumes. Amplification bias was greatly reduced in nanoliter volumes, thereby providing a more even representation of all sequences. Single-cell amplicons from both microliter and nanoliter volumes provided high-quality sequence data by high-throughput pyrosequencing, thereby demonstrating a straightforward route to sequencing genomes from single cells.

摘要

由于只有一小部分环境细菌适合实验室培养，因此人们对直接从单细胞进行基因组测序兴趣浓厚。通过多重置换扩增（MDA）方法可以从一个细胞中获得足够用于测序的DNA，从而无需开发培养方法。在这里，我们使用微流控装置分离单个大肠杆菌，并在60纳升反应中通过MDA扩增基因组DNA。我们的结果证实了一份报告，即减少MDA反应体积可降低由污染的DNA模板和引物之间不利相互作用导致的非特异性合成。通过定量PCR评估基因组扩增的质量，并与在标准50微升体积中进行的单细胞扩增进行了比较，结果良好。在纳升体积中扩增偏差大大降低，从而使所有序列的代表性更加均匀。来自微升和纳升体积的单细胞扩增子通过高通量焦磷酸测序提供了高质量的序列数据，从而证明了一条从单细胞测序基因组的直接途径。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e2a6/1994701/1cc10ffb1400/pgen.0030155.g001.jpg

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纳升反应器可改善单细胞基因组的多重置换扩增。

Nanoliter reactors improve multiple displacement amplification of genomes from single cells.

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