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

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

doi:10.3389/fbioe.2023.1233856

Cited by 2 publications

(1 citation statement)

References 57 publications

(63 reference statements)

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“…Phi29 polymerase has strong chain displacement activity, which can realize the unchain and replication of the complex structure of DNA, and has strong chain affinity. A single polymerization reaction can achieve continuous polymerization extension of up to 100 kb [26]. In addition, Phi29 polymerase also has strong 3 ’-5’ outcut collation activity [27].…”

Section: Introductionmentioning

confidence: 99%

A new method and application of PacBio sequencing for low copy and difficulty preparation plasmids

Ma,

Wang,

Jia

et al. 2024

Preprint

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The Single Molecule Real Time (SMRT) system developed by Pacific Biosciences applies the principle of synthesis while sequencing and uses the SMRT chip as the sequencing carrier. The high starting amount and good integrity of DNA required by PacBio library construction has always been a headache. Generally, the total loading volume of PacBio sequencing is 10μg, and the concentration is not less than 200ng/μL, which is a huge challenge for low-copy plasmids. Tight plasmid means that when the bacterial chromosome replicates once, the plasmid replicates once, and each bacterium only contains 1 to 2 plasmids. The replicon of the plasmid determines the copy number of the plasmid. Low copy plasmids should produce 0.2-1 μg DNA per ml of LB culture. Low-copy plasmids play a key role in gene synthesis. When vectors are used for expression or other purposes, low-copy plasmids are used to reduce resource consumption caused by plasmid expansion. Low-copy plasmids are also used when plasmids have lethal gene clones. In order to solve the problem of low copy plasmid library database construction in PacBio, we used Phi29 polymerase to perform multiple substitution amplification of low copy plasmid, so as to obtain a large number of high molecular weight DNA to meet the computer requirements of PacBio. In addition, this study also established a PacBio sequencing method for bacterial fluids without the need for plasmid extraction steps, thereby reducing time and money costs.

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Section: Introductionmentioning

confidence: 99%

A new method and application of PacBio sequencing for low copy and difficulty preparation plasmids

Ma,

Wang,

Jia

et al. 2024

Preprint

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Recent Innovations and Technical Advances in High‐Throughput Parallel Single‐Cell Whole‐Genome Sequencing Methods

Qiao,

Cheng,

Miao

et al. 2024

Small Methods

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Single‐cell whole‐genome sequencing (scWGS) detects cell heterogeneity at the aspect of genomic variations, which are inheritable and play an important role in life processes such as aging and cancer progression. The recent explosive development of high‐throughput single‐cell sequencing methods has enabled high‐performance heterogeneity detection through a vast number of novel strategies. Despite the limitation on total cost, technical advances in high‐throughput single‐cell whole‐genome sequencing methods are made for higher genome coverage, parallel throughput, and level of integration. This review highlights the technical advancements in high‐throughput scWGS in the aspects of strategies design, data efficiency, parallel handling platforms, and their applications on human genome. The experimental innovations, remaining challenges, and perspectives are summarized and discussed.

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

Cited by 2 publications

References 57 publications

A new method and application of PacBio sequencing for low copy and difficulty preparation plasmids

A new method and application of PacBio sequencing for low copy and difficulty preparation plasmids

Recent Innovations and Technical Advances in High‐Throughput Parallel Single‐Cell Whole‐Genome Sequencing Methods

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