Applied Sciences (Jul 2024)
Dynamic Characteristics of λ-DNA Molecules Translocating through Tapered Microfluidic Channel System Driven by Electric Field Force
Abstract
The dynamic characteristics of single DNA molecules translocating within micro/nano-channels are fundamental for a wide range of applications such as stretching, separating, mapping, and even sequencing of DNA molecules. In this study, a type of tapered microchannel chip with uniform height for all configurations was fabricated, with the major tapered structure having a length of 13 μm and a width that tapers from 5 μm to 20 μm. The dynamic characteristics such as the trajectories and velocities of λ-DNA molecules translocating from different positions driven by an external DC electric field force were systematically investigated by single-molecule fluorescence imaging technology. Some dynamic characteristics of DNA molecules translocation were found. Considering simply the effects of electrophoretic force and electro-osmotic force on the DNA molecules, the dynamic characteristics of DNA molecules are well understood. For example, the velocity of the DNA molecule is inversely proportional to the diameter of the tapered channel and the turning phenomena of the trajectory of the DNA molecules translocating through microchannels. This study is helpful and proposes new ideas for the design and development of microfluidic chips for the quantitative manipulation of DNA molecules.
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