2022
DOI: 10.1007/s11274-021-03209-w
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Development of an optimization pipeline of asymmetric PCR towards the generation of DNA aptamers: a guide for beginners

Abstract: Asymmetric PCR is one of the most utilized strategies in ssDNA generation towards DNA aptamer generation due to its low cost, robustness and the low amount of starting template. Despite its advantages, careful optimization of the asymmetric PCR is still warranted to optimize the yield of ssDNA. In this present study, we have developed an extensive optimization pipeline that involves the optimization of symmetric PCR initially followed by the optimization of asymmetric PCR. In the asymmetric PCR, optimization o… Show more

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Cited by 12 publications
(12 citation statements)
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“…A starting SELEX library consists of numerous sequences, composed of variable regions with more or less complexity, making aptamer amplification difficult and problematic. The annealing temperature was chosen based on the maximum dsDNA yield as it is reported to have little influence on the presence of non-specific products [ 18 ]. We observed a maximum amount of dsDNA at 58 °C ( Figure 1 b), which was the theoretical annealing temperature of the primers, as determined in silico.…”
Section: Discussionmentioning
confidence: 99%
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“…A starting SELEX library consists of numerous sequences, composed of variable regions with more or less complexity, making aptamer amplification difficult and problematic. The annealing temperature was chosen based on the maximum dsDNA yield as it is reported to have little influence on the presence of non-specific products [ 18 ]. We observed a maximum amount of dsDNA at 58 °C ( Figure 1 b), which was the theoretical annealing temperature of the primers, as determined in silico.…”
Section: Discussionmentioning
confidence: 99%
“…At a low annealing temperature, primers can hybridize non-specifically to the complementary sequences present in the variable regions, reducing the efficiency of the PCR [ 19 ]. High annealing temperature weakens the hybridization of primers at their binding sites, also decreasing the PCR efficiency [ 18 ]. The annealing temperature can be set to 58 °C for aptamer selection with our library.…”
Section: Discussionmentioning
confidence: 99%
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“…Firstly, the RCA reaction can obtain long products, named RCA products (RCPs), with a large number of tandem repeat sequences that are complementary to the circular template. Therefore, by elaborately manipulating sequences of the template, the RCPs can be customized with functional nucleic acid sequences, such as DNA aptamers, 30,31 DNAzymes [32][33][34] and restriction enzyme sites. [35][36][37] Accordingly, functions such as specific recognition, cleavage, and catalysis can be flexibly integrated into RCPs.…”
Section: Ke-jing Huangmentioning
confidence: 99%