Single-cell genomic analysis offers insights into various biological fields but is challenged by the limited DNA from single cells. Whole genome amplification (WGA) techniques, such as PCR and multiple displacement amplification (MDA), facilitate the creation of high-quality next-generation sequencing (NGS) libraries. Advances in sequencing technologies and enrichment methods have reduced costs and enabled the analysis of a significant number of single cells. Effective cell isolation techniques maintain cell viability and integrity. This article presents a streamlined workflow that includes single-cell dispensing, genome amplification, and NGS library generation.

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Accelerating Genomics: Innovations in Analyzing Limited and Rare Samples

  • Ioanna Andreou,
  • Markus Storbeck,
  • Jonathan Schaffer

摘要

Single-cell genomic analysis offers insights into various biological fields but is challenged by the limited DNA from single cells. Whole genome amplification (WGA) techniques, such as PCR and multiple displacement amplification (MDA), facilitate the creation of high-quality next-generation sequencing (NGS) libraries. Advances in sequencing technologies and enrichment methods have reduced costs and enabled the analysis of a significant number of single cells. Effective cell isolation techniques maintain cell viability and integrity. This article presents a streamlined workflow that includes single-cell dispensing, genome amplification, and NGS library generation.