使用螃蟹双链特异性核酸酶构建用于下一代测序的标准化RNA测序文库。

Construction of normalized RNA-seq libraries for next-generation sequencing using the crab duplex-specific nuclease.

作者信息

Christodoulou Danos C, Gorham Joshua M, Herman Daniel S, Seidman J G

机构信息

Harvard Medical School, Boston, Massachusetts, USA.

出版信息

Curr Protoc Mol Biol. 2011 Apr;Chapter 4:Unit4.12. doi: 10.1002/0471142727.mb0412s94.

DOI:10.1002/0471142727.mb0412s94

PMID:21472699

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3152986/

Abstract

RNA-seq is a method for studying the transcriptome of cells or tissues by massively parallel sequencing of tens of millions of short DNA fragments. However, the broad dynamic range of gene expression levels, which span more than five orders of magnitude, necessitates considerable over-sequencing to characterize low-abundance RNAs at sufficient depth. Here, we describe a method that enables efficient sequencing of low-abundance RNAs by normalizing or reducing the range spanned by the most abundant RNA species to the least abundant RNA species. This normalization is achieved using an approach that was developed for generating expressed sequence tag (EST) libraries that uses the crab duplex-specific nuclease and exploits the kinetics of DNA annealing. That is, double-stranded cDNA is denatured, then allowed to partially re-anneal, and the most abundant species, which re-anneal most rapidly, are digested with crab duplex-specific nuclease. This procedure substantially decreases the proportion of sequence reads from highly expressed RNAs, facilitating assessment of the full spectrum of the sequence and structure of transcriptomes.

摘要

RNA测序是一种通过对数以千万计的短DNA片段进行大规模平行测序来研究细胞或组织转录组的方法。然而，基因表达水平的广泛动态范围跨越超过五个数量级，这就需要进行大量的过测序，以便在足够的深度上表征低丰度RNA。在这里，我们描述了一种方法，该方法通过将最丰富的RNA种类到最不丰富的RNA种类所跨越的范围进行归一化或缩小，从而实现低丰度RNA的高效测序。这种归一化是使用一种为生成表达序列标签（EST）文库而开发的方法来实现的，该方法使用螃蟹双链特异性核酸酶并利用DNA退火的动力学。也就是说，双链cDNA被变性，然后允许其部分重新退火，最丰富的种类，即重新退火最快的种类，被螃蟹双链特异性核酸酶消化。这个过程大大降低了来自高表达RNA的序列读数比例，有助于评估转录组序列和结构的全谱。

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