Issue 1, 2018

Isotachophoresis applied to biomolecular reactions

Abstract

This review discusses research developments and applications of isotachophoresis (ITP) to the initiation, control, and acceleration of chemical reactions, emphasizing reactions involving biomolecular reactants such as nucleic acids, proteins, and live cells. ITP is a versatile technique which requires no specific geometric design or material, and is compatible with a wide range of microfluidic and automated platforms. Though ITP has traditionally been used as a purification and separation technique, recent years have seen its emergence as a method to automate and speed up chemical reactions. ITP has been used to demonstrate up to 14 000-fold acceleration of nucleic acid assays, and has been used to enhance lateral flow and other immunoassays, and even whole bacterial cell detection assays. We here classify these studies into two categories: homogeneous (all reactants in solution) and heterogeneous (at least one reactant immobilized on a solid surface) assay configurations. For each category, we review and describe physical modeling and scaling of ITP-aided reaction assays, and elucidate key principles in ITP assay design. We summarize experimental advances, and identify common threads and approaches which researchers have used to optimize assay performance. Lastly, we propose unaddressed challenges and opportunities that could further improve these applications of ITP.

Graphical abstract: Isotachophoresis applied to biomolecular reactions

Article information

Article type
Critical Review
Submitted
10 8月 2017
Accepted
21 9月 2017
First published
11 10月 2017

Lab Chip, 2018,18, 11-26

Isotachophoresis applied to biomolecular reactions

C. Eid and J. G. Santiago, Lab Chip, 2018, 18, 11 DOI: 10.1039/C7LC00852J

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