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Polymeric microfluidic system for DNA analysis.

Yi Sun1, Yien C Kwok

  • 1Department of Science, National Institute of Education, Nanyang Technological University, 1 Nanyang Walk, Singapore 637616, Singapore.

Analytica Chimica Acta
|August 29, 2007
PubMed
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Polymeric microfluidic devices are advancing DNA analysis. This review covers microfabrication, cell sorting, lysis, DNA extraction, PCR, and detection using these polymer-based micro-total analysis systems (microTAS).

Area of Science:

  • Biotechnology
  • Analytical Chemistry
  • Materials Science

Background:

  • Micro-total analysis systems (microTAS) have seen significant growth, with DNA analysis being a key application.
  • Polymeric microfluidic devices are increasingly important in microTAS for DNA analysis.
  • Recent advancements necessitate a review of polymer-based microdevices for DNA applications.

Purpose of the Study:

  • To review recent developments in polymeric microfluidic devices for DNA analysis.
  • To explore microfabrication methods and material characteristics of polymers used in these devices.
  • To highlight trends in DNA analysis applications, including cell sorting, lysis, extraction, PCR, separation, and detection.

Main Methods:

  • Review of recent literature on polymer-based microfluidic devices for DNA analysis.

Related Experiment Videos

  • Discussion of polymer material properties relevant to microfluidic applications.
  • Overview of microfabrication techniques for creating these devices.
  • Exploration of various DNA analysis techniques implemented on microfluidic platforms.
  • Main Results:

    • Polymeric microfluidic devices offer versatile platforms for various DNA analysis steps.
    • Microfabrication methods enable the creation of complex integrated systems for DNA analysis.
    • Key applications include cell sorting, cell lysis, DNA extraction and purification, polymerase chain reaction (PCR), and DNA separation/detection.
    • Commercially available polymer-based microdevices are emerging in the market.

    Conclusions:

    • Polymer-based microfluidic devices are crucial for the advancement of DNA analysis.
    • The integration of multiple DNA analysis steps on a single chip is a significant trend.
    • Continued development in materials and fabrication will further enhance the capabilities of these micro-total analysis systems (microTAS).