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Literature DB >> 29775326

Motion of Knots in DNA Stretched by Elongational Fields.

Alexander R Klotz¹, Beatrice W Soh¹, Patrick S Doyle¹.

Abstract

Knots in DNA occur in biological systems, serve as a model system for polymer entanglement, and affect the efficacy of modern genomics technologies. We study the motion of complex knots in DNA by stretching molecules with a divergent electric field that provides an elongational force. We demonstrate that the motion of knots is nonisotropic and driven towards the closest end of the molecule. We show for the first time experimentally that knots can go from a mobile to a jammed state by varying an applied strain rate, and that this jamming is reversible. We measure the mobility of knots as a function of strain rate, demonstrating the conditions under which knots can be driven towards the ends of the molecule and untied.

Mesh：

Substances：
DNA

Year: 2018 PMID： 29775326 DOI： 10.1103/PhysRevLett.120.188003

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

6 in total

Motion of Knots in DNA Stretched by Elongational Fields.

1. Equilibrium structure and deformation response of 2D kinetoplast sheets.

2. Stretching DNA to twice the normal length with single-molecule hydrodynamic trapping.

3. Global and local mechanical properties control endonuclease reactivity of a DNA origami nanostructure.

4. Topological Friction and Relaxation Dynamics of Spatially Confined Catenated Polymers.

Review 5. Shining a Spotlight on DNA: Single-Molecule Methods to Visualise DNA.

6. A Trefoil Knot Polymer Chain Translocates through a Funnel-like Channel: A Multi-Particle Collision Dynamics Study.