Projects per year
Description
Abstract
We study the effect of knots on DNA diffusion in nanochannels using a nanofluidic "knot factory" device for knot generation. The unknotted and knotted DNA diffusion data for the article is published as "Diffusion of knotted DNA molecules in nanochannels in the extended de Gennes regime" in Macromolecules. The data includes DNA images before and after knot generation and all the data used to generate the figures in the article.
Description
MATLAB codes, figure data, DNA images
We study the effect of knots on DNA diffusion in nanochannels using a nanofluidic "knot factory" device for knot generation. The unknotted and knotted DNA diffusion data for the article is published as "Diffusion of knotted DNA molecules in nanochannels in the extended de Gennes regime" in Macromolecules. The data includes DNA images before and after knot generation and all the data used to generate the figures in the article.
Description
MATLAB codes, figure data, DNA images
| Date made available | Apr 19 2021 |
|---|---|
| Publisher | Data Repository for the University of Minnesota |
| Date of data production | May 2020 - Dec 2020 |
Projects
- 1 Finished
-
Hydrodynamics of confined DNA knots
Dorfman, K. (PI)
THE NATIONAL SCIENCE FOUNDATION
6/1/20 → 5/31/24
Project: Research project