优化T4 DNA聚合酶条件可提高一步法不依赖序列和连接的克隆效率。

Optimizing T4 DNA polymerase conditions enhances the efficiency of one-step sequence- and ligation-independent cloning.

作者信息

Islam Mohammad Nazrul, Lee Kyeong Won, Yim Hyung-Soon, Lee Seong Hyuk, Jung Hae Chang, Lee Jung-Hyun, Jeong Jae-Yeon

机构信息

Marine Biotechnology Research Center, Korea Institute of Ocean Science and Technology, Ansan, Republic of Korea.

Department of Marine Biotechnology, Korea University of Science and Technology, Daejeon, Republic of Korea.

出版信息

Biotechniques. 2017 Sep 1;63(3):125-130. doi: 10.2144/000114588.

DOI:10.2144/000114588

PMID:28911316

Abstract

Previously, we developed a one-step sequence- and ligation-independent cloning (SLIC) method that is simple, fast, and cost-effective. However, although one-step SLIC generally works well, its cloning efficiency is occasionally poor, potentially due to formation of stable secondary structures within the single-stranded DNA (ssDNA) region generated by T4 DNA polymerase during the 2.5 min treatment at room temperature. To overcome this problem, we developed a modified thermo-regulated one-step SLIC approach by testing shorter T4 DNA polymerase treatment durations (5 s-2.5 min) over a wide range of temperatures (25-75°C). The highest cloning efficiency resulted when inserts with homology lengths <20 bases were treated with T4 DNA polymerase for 30 s at 50°C. This briefer T4 polymerase treatment at a higher temperature helps increase cloning efficiency for inserts with strong secondary structures at their ends, increasing the utility of one-step SLIC for the cloning of short fragments.

摘要

此前，我们开发了一种一步法序列和连接无关克隆（SLIC）方法，该方法简单、快速且具有成本效益。然而，尽管一步法SLIC通常效果良好，但其克隆效率偶尔会较差，这可能是由于在室温下2.5分钟的处理过程中，T4 DNA聚合酶在单链DNA（ssDNA）区域内形成了稳定的二级结构。为了克服这个问题，我们通过在广泛的温度范围（25-75°C）内测试更短的T4 DNA聚合酶处理时间（5秒-2.5分钟），开发了一种改进的热调节一步法SLIC方法。当同源长度<20个碱基的插入片段在50°C下用T4 DNA聚合酶处理30秒时，克隆效率最高。在较高温度下进行这种更短时间的T4聚合酶处理有助于提高末端具有强二级结构的插入片段的克隆效率，增加了一步法SLIC在短片段克隆中的实用性。

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优化T4 DNA聚合酶条件可提高一步法不依赖序列和连接的克隆效率。

Optimizing T4 DNA polymerase conditions enhances the efficiency of one-step sequence- and ligation-independent cloning.

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