通用多克隆位点设计与细菌体内组装简化质粒克隆。

Simplified plasmid cloning with a universal MCS design and bacterial in vivo assembly.

机构信息

School of Biological Science and Biotechnology, Minnan Normal University, Zhangzhou, 363000, P.R. China.

出版信息

BMC Biotechnol. 2021 Mar 15;21(1):24. doi: 10.1186/s12896-021-00679-6.

DOI:10.1186/s12896-021-00679-6

PMID:33722223

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7962268/

Abstract

BACKGROUND

The ability to clone DNA sequences quickly and precisely into plasmids is essential for molecular biology studies. The recent development of seamless cloning technologies has made significant improvements in plasmid construction, but simple and reliable tools are always desirable for time- and labor-saving purposes.

RESULTS

We developed and standardized a plasmid cloning protocol based on a universal MCS (Multiple Cloning Site) design and bacterial in vivo assembly. With this method, the vector is linearized first by PCR (Polymerase Chain Reaction) or restriction digestion. Then a small amount (10 ~ 20 ng) of this linear vector can be mixed with a PCR-amplified insert (5× molar ratio against vector) and transformed directly into competent E. coli cells to obtain the desired clones through in vivo assembly. Since we used a 36-bp universal MCS as the homologous linker, any PCR-amplified insert with ~ 15 bp compatible termini can be cloned into the vector with high fidelity and efficiency. Thus, the need for redesigning insert-amplifying primers according to various vector sequences and the following PCR procedures was eliminated.

CONCLUSIONS

Our protocol significantly reduced hands-on time for preparing transformation reactions, had excellent reliability, and was confirmed to be a rapid and versatile plasmid cloning technique. The protocol contains mostly mixing steps, making it an extremely automation-friendly and promising tool in modern biology studies.

摘要

背景

快速且精确地将 DNA 序列克隆到质粒中对于分子生物学研究至关重要。最近无缝克隆技术的发展在质粒构建方面取得了重大进展，但为了节省时间和劳动力，简单可靠的工具始终是人们所期望的。

结果

我们开发并标准化了一种基于通用多克隆位点（MCS）设计和细菌体内组装的质粒克隆方案。使用这种方法，首先通过聚合酶链反应（PCR）或限制性消化将载体线性化。然后，将少量（10~20ng）线性载体与 PCR 扩增的插入物（载体的 5 倍摩尔比）混合，并直接转化到感受态大肠杆菌细胞中，通过体内组装获得所需的克隆。由于我们使用了 36 个碱基的通用 MCS 作为同源链接，任何具有约 15 个碱基兼容末端的 PCR 扩增插入物都可以以高保真度和效率克隆到载体中。因此，无需根据各种载体序列重新设计插入物扩增引物，也无需进行后续的 PCR 步骤。

结论

我们的方案显著减少了准备转化反应的操作时间，具有出色的可靠性，并且被证实是一种快速且通用的质粒克隆技术。该方案主要包含混合步骤，使其成为现代生物学研究中非常适合自动化的有前途的工具。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5749/7962268/005471ccd898/12896_2021_679_Fig1_HTML.jpg

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本文引用的文献

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J Bacteriol. 2019 Feb 11;201(5). doi: 10.1128/JB.00660-18. Print 2019 Mar 1.

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通用多克隆位点设计与细菌体内组装简化质粒克隆。

Simplified plasmid cloning with a universal MCS design and bacterial in vivo assembly.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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