基因组的链特异性单链DNA测序（4S-seq）

Strand-specific Single-stranded DNA Sequencing (4S-seq) of genomes.

作者信息

Masuda Takahiro, Kono Nobuaki, Tomita Masaru, Arakawa Kazuharu

机构信息

Graduate School of Media and Governance, Keio University, Fujisawa, Japan.

Institute for Advanced Biosciences, Keio University, Tsuruoka, Japan.

出版信息

Bio Protoc. 2019 Aug 5;9(15):e3329. doi: 10.21769/BioProtoc.3329.

DOI:10.21769/BioProtoc.3329

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7854271/

Abstract

Most bacterial genomes have biased nucleotide composition, and the asymmetry is considered to be caused by a single-stranded DNA (ssDNA) deamination arising from the bacterial replication machinery. In order to evaluate the relationship experimentally, the position and frequency of ssDNA formed during replication must be verified clearly. Although many ssDNA detection technologies exist, almost all methods have been developed for eukaryotic genomes. To apply these to bacterial genomes, which harbor a smaller amount of DNA than those of eukaryotes, more efficient, new methods are required. Therefore, we developed a novel strand-specific ssDNA sequencing method, called 4S-seq, for the bacterial genome. The 4S-seq method enriches ssDNA in the extracted genomic DNA by a dsDNA-specific nuclease and implements a strand-specific library using a biotin label with a customized tag. As a result, the 4S-seq is able to calculate the ssDNA content in each strand (Watson/Crick) at each position of the genome efficiently.

摘要

大多数细菌基因组具有偏向性的核苷酸组成，这种不对称性被认为是由细菌复制机制产生的单链DNA（ssDNA）脱氨作用引起的。为了通过实验评估这种关系，必须清楚地验证复制过程中形成的ssDNA的位置和频率。尽管存在许多ssDNA检测技术，但几乎所有方法都是针对真核生物基因组开发的。要将这些方法应用于DNA含量比真核生物少的细菌基因组，就需要更高效的新方法。因此，我们开发了一种用于细菌基因组的新型链特异性ssDNA测序方法，称为4S-seq。4S-seq方法通过双链DNA特异性核酸酶在提取的基因组DNA中富集ssDNA，并使用带有定制标签的生物素标签构建链特异性文库。结果，4S-seq能够高效地计算基因组每个位置每条链（沃森链/克里克链）中的ssDNA含量。

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