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  • Ultrafast, efficient separations of large-sized dsDNA in a blended polymer matrix by microfluidic chip electrophoresis: a design of experiments approach.

Ultrafast, efficient separations of large-sized dsDNA in a blended polymer matrix by microfluidic chip electrophoresis: a design of experiments approach.

Electrophoresis (2011-10-20)
Mingyun Sun, Jennifer S Lin, Annelise E Barron
RÉSUMÉ

Double-stranded (ds) DNA fragments over a wide size range were successfully separated in blended polymer matrices by microfluidic chip electrophoresis. Novel blended polymer matrices composed of two types of polymers with three different molar masses were developed to provide improved separations of large dsDNA without negatively impacting the separation of small dsDNA. Hydroxyethyl celluloses with average molar masses of ∼27  kDa and ∼1  MDa were blended with a second class of polymer, high-molar mass (∼7  MDa) linear polyacrylamide. Fast and highly efficient separations of commercially available DNA ladders were achieved on a borosilicate glass microchip. A distinct separation of a 1-kb DNA extension ladder (200-40,000  bp) was completed in 2  min. An orthogonal design of experiments was used to optimize experimental parameters for DNA separations over a wide size range. We find that the two dominant factors are the applied electric field strength and the inclusion of a high concentration of low-molar mass polymer in the matrix solution. These two factors exerted different effects on the separations of small dsDNA fragments below 1  kbp, medium dsDNA fragments between 1 and 10  kbp, and large dsDNA fragments above 10  kbp.

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Description du produit

Sigma-Aldrich
Hydroxyethyl-cellulose
Sigma-Aldrich
2-Hydroxyethyl cellulose, average Mv ~90,000
Sigma-Aldrich
2-Hydroxyethyl cellulose, average Mv ~1,300,000
Sigma-Aldrich
Hydroxyethyl-cellulose, viscosity 90-160 cP, 5 % in H2O(25 °C)
Sigma-Aldrich
2-Hydroxyethyl cellulose, average Mw ~380,000
Sigma-Aldrich
2-Hydroxyethyl cellulose, average Mv ~720,000