Frontiers in Microbiology (Feb 2023)

Portable nanopore-sequencing technology: Trends in development and applications

  • Pin Chen,
  • Zepeng Sun,
  • Jiawei Wang,
  • Xinlong Liu,
  • Yun Bai,
  • Jiang Chen,
  • Anna Liu,
  • Feng Qiao,
  • Yang Chen,
  • Chenyan Yuan,
  • Jingjie Sha,
  • Jinghui Zhang,
  • Li-Qun Xu,
  • Jian Li

DOI
https://doi.org/10.3389/fmicb.2023.1043967
Journal volume & issue
Vol. 14

Abstract

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Sequencing technology is the most commonly used technology in molecular biology research and an essential pillar for the development and applications of molecular biology. Since 1977, when the first generation of sequencing technology opened the door to interpreting the genetic code, sequencing technology has been developing for three generations. It has applications in all aspects of life and scientific research, such as disease diagnosis, drug target discovery, pathological research, species protection, and SARS-CoV-2 detection. However, the first- and second-generation sequencing technology relied on fluorescence detection systems and DNA polymerization enzyme systems, which increased the cost of sequencing technology and limited its scope of applications. The third-generation sequencing technology performs PCR-free and single-molecule sequencing, but it still depends on the fluorescence detection device. To break through these limitations, researchers have made arduous efforts to develop a new advanced portable sequencing technology represented by nanopore sequencing. Nanopore technology has the advantages of small size and convenient portability, independent of biochemical reagents, and direct reading using physical methods. This paper reviews the research and development process of nanopore sequencing technology (NST) from the laboratory to commercially viable tools; discusses the main types of nanopore sequencing technologies and their various applications in solving a wide range of real-world problems. In addition, the paper collates the analysis tools necessary for performing different processing tasks in nanopore sequencing. Finally, we highlight the challenges of NST and its future research and application directions.

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