通过高效 phi29 DNA 聚合酶改进单细胞基因组扩增。

Improved single-cell genome amplification by a high-efficiency phi29 DNA polymerase.

作者信息

Zhang Jia, Su Xiaolu, Wang Yefei, Wang Xiaohang, Zhou Shiqi, Jia Hui, Jing Xiaoyan, Gong Yanhai, Wang Jichao, Xu Jian

机构信息

Single-Cell Center, CAS Key Laboratory of Biofuels, Shandong Key Laboratory of Energy Genetics, Qingdao Institute of Bioenergy and Bioprocess Technology, Chinese Academy of Sciences, Qingdao, Shandong, China.

Shandong Energy Institute, Qingdao, Shandong, China.

出版信息

Front Bioeng Biotechnol. 2023 Jun 29;11:1233856. doi: 10.3389/fbioe.2023.1233856. eCollection 2023.

DOI:10.3389/fbioe.2023.1233856

PMID:37456715

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10347390/

Abstract

Single-cell genomic whole genome amplification (WGA) is a crucial step in single-cell sequencing, yet its low amplification efficiency, incomplete and uneven genome amplification still hinder the throughput and efficiency of single-cell sequencing workflows. Here we introduce a process called Improved Single-cell Genome Amplification (iSGA), in which the whole single-cell sequencing cycle is completed in a high-efficient and high-coverage manner, through phi29 DNA polymerase engineering and process engineering. By establishing a disulfide bond of F137C-A377C, the amplification ability of the enzyme was improved to that of single-cell. By further protein engineering and process engineering, a supreme enzyme named HotJa Phi29 DNA Polymerase was developed and showed significantly better coverage (99.75%) at a higher temperature (40°C). High single-cell genome amplification ability and high coverage (93.59%) were also achieved for commercial probiotic samples. iSGA is more efficient and robust than the wild-type phi29 DNA polymerase, and it is 2.03-fold more efficient and 10.89-fold cheaper than the commercial Thermo Scientific EquiPhi29 DNA Polymerase. These advantages promise its broad applications in large-scale single-cell sequencing.

摘要

单细胞基因组全基因组扩增（WGA）是单细胞测序中的关键步骤，但其扩增效率低、基因组扩增不完全且不均匀，仍然阻碍了单细胞测序工作流程的通量和效率。在此，我们介绍一种称为改进型单细胞基因组扩增（iSGA）的方法，通过phi29 DNA聚合酶工程和流程工程，以高效、高覆盖的方式完成整个单细胞测序周期。通过建立F137C-A377C的二硫键，将该酶的扩增能力提高到单细胞水平。通过进一步的蛋白质工程和流程工程，开发出一种名为HotJa Phi29 DNA聚合酶的顶级酶，在较高温度（40°C）下显示出显著更高的覆盖率（99.75%）。对于商业益生菌样品，也实现了高单细胞基因组扩增能力和高覆盖率（93.59%）。iSGA比野生型phi29 DNA聚合酶更高效、更稳健，其效率比商业赛默飞世尔科技公司的EquiPhi29 DNA聚合酶高2.03倍，成本低10.89倍。这些优势使其在大规模单细胞测序中具有广阔的应用前景。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fec6/10347390/f6455c247ead/fbioe-11-1233856-g001.jpg

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通过高效 phi29 DNA 聚合酶改进单细胞基因组扩增。

Improved single-cell genome amplification by a high-efficiency phi29 DNA polymerase.

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