Stretching DNA with a Receding Meniscus: Experiments and Models
- 5 June 1995
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 74 (23), 4754-4757
- https://doi.org/10.1103/physrevlett.74.4754
Abstract
A detailed experimental and theoretical analysis of the alignment of grafted DNA molecules by a moving meniscus is presented. The existence and extent of the stretching (up to times the unstretched length) depends critically on the properties of the surface. Molecules grafted at both ends exhibit a looplike shape which is scale invariant. An elastic model of this process, which we have called molecular combing, is introduced which (a) yields the extension force on various surfaces, (b) yields a value for the tensile strength of DNA, , and (c) describes the shape of the loops with no fitting parameters.
Keywords
This publication has 16 references indexed in Scilit:
- Alignment and Sensitive Detection of DNA by a Moving InterfaceScience, 1994
- Entropic Elasticity of λ-Phage DNAScience, 1994
- Adhesion Forces Between Individual Ligand-Receptor PairsScience, 1994
- Sensing Discrete Streptavidin-Biotin Interactions with Atomic Force MicroscopyLangmuir, 1994
- Ordered Restriction Maps of Saccharomyces cerevisiae Chromosomes Constructed by Optical MappingScience, 1993
- High resolution visual mapping of stretched DNA by fluorescent hybridizationNature Genetics, 1993
- DNA electrophoresis in microlithographic arraysNature, 1992
- Conformational dynamics of individual DNA molecules during gel electrophoresisNature, 1989
- Importance of DNA stiffness in protein–DNA binding specificityNature, 1987
- The helicity of DNA in complexes with RecA proteinNature, 1982