Dynamics of Single Polymers in a Stagnation Flow Induced by Electrokinetics

Overview

Journal Phys Rev Lett

Publisher American Physical Society

Specialty Biophysics

Date 2005 Feb 9

PMID 15698027

Citations 6

Authors

Y-J Juang

S Wang

X Hu

L J Lee

Affiliations

Soon will be listed here.

Abstract

An electrokinetics-induced stagnation flow was created inside a microscale cross-channel. Compared to hydrodynamic-induced microfluidics, this flow system can be readily assembled and the operation is very simple due to a low pressure drop. Through image analysis, a fairly homogeneous, two-dimensional elongational flow was observed. The initial conformation of DNA molecules and residence time inside the flow field play important roles in determining the extent of DNA stretching. A coarse-grain molecular simulation agrees reasonably well with experimental observations.

Citing Articles

Effects of thermal noise on the transitional dynamics of an inextensible elastic filament in stagnation flow.

Deng M, Grinberg L, Caswell B, Karniadakis G Soft Matter. 2015; 11(24):4962-72.

PMID: 26023834 PMC: 4478604. DOI: 10.1039/c4sm02395a.

Simulation of single DNA molecule stretching and immobilization in a de-wetting two-phase flow over micropillar-patterned surface.

Liao W, Hu X, Wang W, Lee L Biomicrofluidics. 2014; 7(3):34103.

PMID: 24404023 PMC: 3676381. DOI: 10.1063/1.4807462.

Regulation of DNA conformations and dynamics in flows with hybrid field microfluidics.

Ren F, Zu Y, Rajagopalan K, Wang S Biomicrofluidics. 2013; 6(4):44103.

PMID: 24155864 PMC: 3494712. DOI: 10.1063/1.4762852.

Microfluidic systems for single DNA dynamics.

Mai D, Brockman C, Schroeder C Soft Matter. 2012; 8(41):10560-10572.

PMID: 23139700 PMC: 3489478. DOI: 10.1039/C2SM26036K.

Coil-stretch Transition of DNA Molecules in Slit-like Confinement.

Tang J, Trahan D, Doyle P Macromolecules. 2011; 43(6):3081-3089.

PMID: 21399708 PMC: 3050490. DOI: 10.1021/ma902689c.