通过一种可转移的松弛酶介导，使外源 DNA 特异性地整合到最小的细菌和人类靶序列中。

Site-specific integration of foreign DNA into minimal bacterial and human target sequences mediated by a conjugative relaxase.

机构信息

Departamento de Biología Molecular, Universidad de Cantabria and Instituto de Biomedicina y Biotecnología de Cantabria, UC-CSIC-SODERCAN, Santander, Spain.

出版信息

PLoS One. 2012;7(1):e31047. doi: 10.1371/journal.pone.0031047. Epub 2012 Jan 23.

DOI:10.1371/journal.pone.0031047

PMID:22292089

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3264647/

Abstract

BACKGROUND

Bacterial conjugation is a mechanism for horizontal DNA transfer between bacteria which requires cell to cell contact, usually mediated by self-transmissible plasmids. A protein known as relaxase is responsible for the processing of DNA during bacterial conjugation. TrwC, the relaxase of conjugative plasmid R388, is also able to catalyze site-specific integration of the transferred DNA into a copy of its target, the origin of transfer (oriT), present in a recipient plasmid. This reaction confers TrwC a high biotechnological potential as a tool for genomic engineering.

METHODOLOGY/PRINCIPAL FINDINGS: We have characterized this reaction by conjugal mobilization of a suicide plasmid to a recipient cell with an oriT-containing plasmid, selecting for the cointegrates. Proteins TrwA and IHF enhanced integration frequency. TrwC could also catalyze integration when it is expressed from the recipient cell. Both Y18 and Y26 catalytic tyrosil residues were essential to perform the reaction, while TrwC DNA helicase activity was dispensable. The target DNA could be reduced to 17 bp encompassing TrwC nicking and binding sites. Two human genomic sequences resembling the 17 bp segment were accepted as targets for TrwC-mediated site-specific integration. TrwC could also integrate the incoming DNA molecule into an oriT copy present in the recipient chromosome.

CONCLUSIONS/SIGNIFICANCE: The results support a model for TrwC-mediated site-specific integration. This reaction may allow R388 to integrate into the genome of non-permissive hosts upon conjugative transfer. Also, the ability to act on target sequences present in the human genome underscores the biotechnological potential of conjugative relaxase TrwC as a site-specific integrase for genomic modification of human cells.

摘要

背景

细菌接合是一种在细菌之间进行水平 DNA 转移的机制，需要细胞间接触，通常由自我传输质粒介导。一种称为松弛酶的蛋白质负责在细菌接合过程中处理 DNA。R388 接合质粒的松弛酶 TrwC 也能够催化转移 DNA 特异性整合到其靶标（转移起始点，oriT）的一个拷贝中，该靶标存在于受体质粒中。该反应赋予 TrwC 作为基因组工程工具的高生物技术潜力。

方法/主要发现：我们通过带有 oriT 的受体细胞的自杀质粒的接合性动员来表征该反应，选择共整合体。TrwA 和 IHF 蛋白增强了整合频率。当从受体细胞表达时，TrwC 也可以催化整合。Y18 和 Y26 催化酪氨酸残基对于执行该反应至关重要，而 TrwC DNA 解旋酶活性是可有可无的。目标 DNA 可以减少到 17 bp，包括 TrwC 切口和结合位点。两个类似于 17 bp 片段的人类基因组序列被接受为 TrwC 介导的特异性整合的靶标。TrwC 还可以将进入的 DNA 分子整合到受体染色体中存在的 oriT 拷贝中。

结论/意义：结果支持 TrwC 介导的特异性整合模型。该反应可能允许 R388 在接合转移时整合到非允许宿主的基因组中。此外，能够作用于人类基因组中存在的靶序列强调了作为人类细胞基因组修饰的特异性整合酶的接合松弛酶 TrwC 的生物技术潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/77cb/3264647/2b9e09bf13da/pone.0031047.g001.jpg

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通过一种可转移的松弛酶介导，使外源 DNA 特异性地整合到最小的细菌和人类靶序列中。

Site-specific integration of foreign DNA into minimal bacterial and human target sequences mediated by a conjugative relaxase.

机构信息

出版信息

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