화학공학소재연구정보센터
Electrophoresis, Vol.29, No.23, 4663-4668, 2008
DNA sequencing by microchip electrophoresis using mixtures of high- and low-molar mass poly(N,N-dimethylacrylamide) matrices
Previous studies have reported that mixed molar mass polymer matrices show enhanced DNA sequencing fragment separation compared with matrices formulated from a single average molar mass. Here, we describe a systematic study to investigate the effects of varying the amounts of two different average molar mass polymers on the DNA sequencing ability of poly(N,N-dimethylacrylamide) (pDMA) sequencing matrices in microfluidic chips. Two polydisperse samples of pDMA, with weight-average molar masses of 3.5 MDa and 770 kDa, were mixed at various fractional concentrations while maintaining the overall polymer concentration at 5% w/v. We show that although the separation of short DNA fragments depends strongly on the overall solution concentration of the polymer, inclusion of the high-molar mass polymer is essential to achieve read lengths of interest (> 400 bases) for many sequencing applications. Our results also show that one of the blended matrices, comprised of 3% 3.5 MDa pDMA and 2% 770 kDa pDMA, yields similar sequencing read lengths (> 520 bases on average) to the high-molar mass matrix alone, while also providing a fivefold reduction in zero-shear viscosity. These results indicate that the long read lengths achieved in a viscous, high-molar mass polymer matrix are also possible to achieve in a tuned, blended matrix of high- and low-molar mass polymers with a much lower overall solution viscosity.