Construction and optimization of an efficient amplification method of a random ssDNA library by asymmetric emulsion PCR

Shao, Keke; Shi, Xinhui; Zhu, Xiangjun; Cui, Leilei; Shao, Qixiang; Ma, Da

doi:10.1002/bab.1467

Cited by 13 publications

(5 citation statements)

References 20 publications

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“…Functionally active nucleic acids, including aptamers [ 1 ] and single-strand oligonucleotide ligands (single stranded DNA, ssDNA), have been extensively used as target recognition elements due to their intrinsic properties. To especially carry out the ssDNA analysis, PCR amplification should be followed by the conversion of dsDNA to ssDNA using the extra steps such as asymmetric PCR [ 2 ], biotin-streptavidin separation using magnetic beads [ 3 ], enzymatic degradation, and denaturation of dsDNA by heating or by alkaline treatment, etc. [ 4 – 7 ].…”

Section: Introductionmentioning

confidence: 99%

On-Flow Synthesis of Co-Polymerizable Oligo-Microspheres and Application in ssDNA Amplification

Lee

et al. 2016

PLoS ONE

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We fabricated droplet-based microfluidic platform for copolymerizable microspheres with acrydite modified DNA probe. The copolymerizable 3-D polyacrylamide microspheres were successfully produced from microcontinuous-flow synthesis with on-channel solidification. DNA copolymerization activity, surface presentation and thermostability were assessed by using fluorescent labeled complementary probe. The binding performance was only visible on the surface area of oligo-microspheres. We show that the resulting oligo-microspheres can be directly integrated into a streamlined microsphere-PCR protocol for amplifying ssDNA. Our microspheres could be utilized as a potential material for ssDNA analysis such as DNA microarray and automatic DNA SELEX process.

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Section: Introductionmentioning

confidence: 99%

On-Flow Synthesis of Co-Polymerizable Oligo-Microspheres and Application in ssDNA Amplification

Lee

et al. 2016

PLoS ONE

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“…The main disadvantage of conventional PCR amplification during unequal length primer PCR is that overamplification increases nonspecific hybridization among different products and by-products, which may cause the loss of potential specific aptamers, inefficient selection, and even selection failure. It was reported [ 35 ] that emulsion PCR could overcome the shortcomings of conventional PCR. During emulsion PCR, different templates are separated by emulsion particles, allowing single-molecule PCR, and avoiding nonspecific hybridization.…”

Section: Discussionmentioning

confidence: 99%

Selection and Identification of Novel Aptamers Specific for Clenbuterol Based on ssDNA Library Immobilized SELEX and Gold Nanoparticles Biosensor

et al. 2018

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We describe a multiple combined strategy to discover novel aptamers specific for clenbuterol (CBL). An immobilized ssDNA library was used for the selection of specific aptamers using the systematic evolution of ligands by exponential enrichment (SELEX). Progress was monitored using real-time quantitative PCR (Q-PCR), and the enriched library was sequenced by high-throughput sequencing. Candidate aptamers were picked and preliminarily identified using a gold nanoparticles (AuNPs) biosensor. Bioactive aptamers were characterized for affinity, circular dichroism (CD), specificity and sensitivity. The Q-PCR amplification curve increased and the retention rate was about 1% at the eighth round. Use of the AuNPs biosensor and CD analyses determined that six aptamers had binding activity. Affinity analysis showed that aptamer 47 had the highest affinity (Kd = 42.17 ± 8.98 nM) with no cross reactivity to CBL analogs. Indirect competitive enzyme linked aptamer assay (IC-ELAA) based on a 5′-biotin aptamer 47 indicated the limit of detection (LOD) was 0.18 ± 0.02 ng/L (n = 3), and it was used to detect pork samples with a mean recovery of 83.33–97.03%. This is the first report of a universal strategy including library fixation, Q-PCR monitoring, high-throughput sequencing, and AuNPs biosensor identification to select aptamers specific for small molecules.

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“…Performance of aPCR may be further enhanced by a method described by Tolnai et al wherein 3 phosphorylated primers ("blockers") are added to standard aPCR mixtures to minimize byproduct formation and thereby increase production yield [33]. Finally, performing aPCR in an emulsion state (a mixture of the aqueous reaction and oil) isolates DNA molecules from each other, mimicking single-molecule aPCR, and thereby reducing the formation of byproducts and increasing yield [44]. Finally, the dsDNA generated during the initial amplification cycles of aPCR can be used as a template for further ssDNA generation by aPCR, strand-specific exonuclease digestion, or chemical denaturation.…”

Section: Asymmetric Pcr (Apcr)mentioning

confidence: 99%

A Comparison of Methods for the Production of Kilobase-Length Single-Stranded DNA

Henderson

2022

DNA

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DNA nanoengineering, in particular, DNA origami has potential applications in a variety of areas including, for example, nanoelectronics, biomedical diagnostics, and therapeutics. To fully realize the potential of DNA self-assembly in these and other areas, methods must be available for economical, scalable, and reliable production of single-stranded DNA (ssDNA) scaffolds from virtually any source. In this review, we will describe the virtues and liabilities of four strategies for generating ssDNA, including Rolling Circle Amplification (RCA), strand-specific exonuclease digestion, chemical denaturation, and asymmetric PCR (aPCR), with suggestions for approaches to optimize the use of each method.

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Construction and optimization of an efficient amplification method of a random ssDNA library by asymmetric emulsion PCR

Cited by 13 publications

References 20 publications

On-Flow Synthesis of Co-Polymerizable Oligo-Microspheres and Application in ssDNA Amplification

On-Flow Synthesis of Co-Polymerizable Oligo-Microspheres and Application in ssDNA Amplification

Selection and Identification of Novel Aptamers Specific for Clenbuterol Based on ssDNA Library Immobilized SELEX and Gold Nanoparticles Biosensor

A Comparison of Methods for the Production of Kilobase-Length Single-Stranded DNA

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