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Liquid drop of DNA libraries reveals total genome information. | LitMetric

AI Article Synopsis

  • - Conventional bulk PCR often leads to inefficient and biased amplification of complex DNA templates, which can compromise the quality of DNA libraries.
  • - Emulsion PCR (ePCR) uses single DNA molecules in droplets to minimize these issues, and a mathematical model was developed to optimize ePCR techniques for better library amplification.
  • - High-throughput sequencing demonstrates that ePCR significantly outperforms bulk PCR by reducing DNA errors and ensuring a more uniform distribution of amplified sequences, crucial for maintaining the integrity of diverse DNA templates.

Article Abstract

Conventional "bulk" PCR often yields inefficient and nonuniform amplification of complex templates in DNA libraries, introducing unwanted biases. Amplification of single DNA molecules encapsulated in a myriad of emulsion droplets (emulsion PCR, ePCR) allows the mitigation of this problem. Different ePCR regimes were experimentally analyzed to identify the most robust techniques for enhanced amplification of DNA libraries. A phenomenological mathematical model that forms an essential basis for optimal use of ePCR for library amplification was developed. A detailed description by high-throughput sequencing of amplified DNA-encoded libraries highlights the principal advantages of ePCR over bulk PCR. ePCR outperforms PCR, reduces gross DNA errors, and provides a more uniform distribution of the amplified sequences. The quasi single-molecule amplification achieved via ePCR represents the fundamental requirement in case of complex DNA templates being prone to diversity degeneration and provides a way to preserve the quality of DNA libraries.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7959537PMC
http://dx.doi.org/10.1073/pnas.2017138117DOI Listing

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