author_facet Benjamin Renner, C.
Du, Ning
Doyle, Patrick S.
Benjamin Renner, C.
Du, Ning
Doyle, Patrick S.
author Benjamin Renner, C.
Du, Ning
Doyle, Patrick S.
spellingShingle Benjamin Renner, C.
Du, Ning
Doyle, Patrick S.
Biomicrofluidics
Enhanced electrohydrodynamic collapse of DNA due to dilute polymers
Condensed Matter Physics
General Materials Science
Fluid Flow and Transfer Processes
Colloid and Surface Chemistry
Biomedical Engineering
author_sort benjamin renner, c.
spelling Benjamin Renner, C. Du, Ning Doyle, Patrick S. 1932-1058 AIP Publishing Condensed Matter Physics General Materials Science Fluid Flow and Transfer Processes Colloid and Surface Chemistry Biomedical Engineering http://dx.doi.org/10.1063/1.4878135 <jats:p>We experimentally demonstrate that addition of small, charge-neutral polymers to a buffer solution can promote compression of dilute solutions of single electrophoresing DNA. This phenomenon contrasts with the observed extension of DNA during capillary electrophoresis in dilute solutions of high molecular weight polymers. We propose these discrepancies in micron-scale DNA configurations arise from different nano-scale DNA-polymer collision events, controlled by solute polymer properties. We build upon theories previously proposed for intermolecular DNA aggregation in polymer-free solutions to develop scaling theories that describe trends seen in our data for intramolecular DNA compaction in dilute polymer solutions.</jats:p> Enhanced electrohydrodynamic collapse of DNA due to dilute polymers Biomicrofluidics
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title Enhanced electrohydrodynamic collapse of DNA due to dilute polymers
title_unstemmed Enhanced electrohydrodynamic collapse of DNA due to dilute polymers
title_full Enhanced electrohydrodynamic collapse of DNA due to dilute polymers
title_fullStr Enhanced electrohydrodynamic collapse of DNA due to dilute polymers
title_full_unstemmed Enhanced electrohydrodynamic collapse of DNA due to dilute polymers
title_short Enhanced electrohydrodynamic collapse of DNA due to dilute polymers
title_sort enhanced electrohydrodynamic collapse of dna due to dilute polymers
topic Condensed Matter Physics
General Materials Science
Fluid Flow and Transfer Processes
Colloid and Surface Chemistry
Biomedical Engineering
url http://dx.doi.org/10.1063/1.4878135
publishDate 2014
physical
description <jats:p>We experimentally demonstrate that addition of small, charge-neutral polymers to a buffer solution can promote compression of dilute solutions of single electrophoresing DNA. This phenomenon contrasts with the observed extension of DNA during capillary electrophoresis in dilute solutions of high molecular weight polymers. We propose these discrepancies in micron-scale DNA configurations arise from different nano-scale DNA-polymer collision events, controlled by solute polymer properties. We build upon theories previously proposed for intermolecular DNA aggregation in polymer-free solutions to develop scaling theories that describe trends seen in our data for intramolecular DNA compaction in dilute polymer solutions.</jats:p>
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author Benjamin Renner, C., Du, Ning, Doyle, Patrick S.
author_facet Benjamin Renner, C., Du, Ning, Doyle, Patrick S., Benjamin Renner, C., Du, Ning, Doyle, Patrick S.
author_sort benjamin renner, c.
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description <jats:p>We experimentally demonstrate that addition of small, charge-neutral polymers to a buffer solution can promote compression of dilute solutions of single electrophoresing DNA. This phenomenon contrasts with the observed extension of DNA during capillary electrophoresis in dilute solutions of high molecular weight polymers. We propose these discrepancies in micron-scale DNA configurations arise from different nano-scale DNA-polymer collision events, controlled by solute polymer properties. We build upon theories previously proposed for intermolecular DNA aggregation in polymer-free solutions to develop scaling theories that describe trends seen in our data for intramolecular DNA compaction in dilute polymer solutions.</jats:p>
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spelling Benjamin Renner, C. Du, Ning Doyle, Patrick S. 1932-1058 AIP Publishing Condensed Matter Physics General Materials Science Fluid Flow and Transfer Processes Colloid and Surface Chemistry Biomedical Engineering http://dx.doi.org/10.1063/1.4878135 <jats:p>We experimentally demonstrate that addition of small, charge-neutral polymers to a buffer solution can promote compression of dilute solutions of single electrophoresing DNA. This phenomenon contrasts with the observed extension of DNA during capillary electrophoresis in dilute solutions of high molecular weight polymers. We propose these discrepancies in micron-scale DNA configurations arise from different nano-scale DNA-polymer collision events, controlled by solute polymer properties. We build upon theories previously proposed for intermolecular DNA aggregation in polymer-free solutions to develop scaling theories that describe trends seen in our data for intramolecular DNA compaction in dilute polymer solutions.</jats:p> Enhanced electrohydrodynamic collapse of DNA due to dilute polymers Biomicrofluidics
spellingShingle Benjamin Renner, C., Du, Ning, Doyle, Patrick S., Biomicrofluidics, Enhanced electrohydrodynamic collapse of DNA due to dilute polymers, Condensed Matter Physics, General Materials Science, Fluid Flow and Transfer Processes, Colloid and Surface Chemistry, Biomedical Engineering
title Enhanced electrohydrodynamic collapse of DNA due to dilute polymers
title_full Enhanced electrohydrodynamic collapse of DNA due to dilute polymers
title_fullStr Enhanced electrohydrodynamic collapse of DNA due to dilute polymers
title_full_unstemmed Enhanced electrohydrodynamic collapse of DNA due to dilute polymers
title_short Enhanced electrohydrodynamic collapse of DNA due to dilute polymers
title_sort enhanced electrohydrodynamic collapse of dna due to dilute polymers
title_unstemmed Enhanced electrohydrodynamic collapse of DNA due to dilute polymers
topic Condensed Matter Physics, General Materials Science, Fluid Flow and Transfer Processes, Colloid and Surface Chemistry, Biomedical Engineering
url http://dx.doi.org/10.1063/1.4878135