The elastic properties of the double-stranded DNA handles used in optical tweezers experiments on biomolecules are customarily modeled by an extensible worm-like chain model. Fitting such a model to experimental data, however, is no trivial task, as the function depends on four parameters in a highly non-linear fashion. We hereby propose a method to bypass the fitting procedure and obtain an empirical force vs. extension curve that accurately reproduces the elasticity of the handles.
A fit-less approach to the elasticity of the handles in optical tweezers experiments / Mossa, Alessandro; Cecconi, Ciro. - In: EUROPEAN BIOPHYSICS JOURNAL WITH BIOPHYSICS LETTERS. - ISSN 0175-7571. - 51:4-5(2022), pp. 413-418. [10.1007/s00249-022-01603-2]
A fit-less approach to the elasticity of the handles in optical tweezers experiments
Mossa, Alessandro
;Cecconi, Ciro
2022
Abstract
The elastic properties of the double-stranded DNA handles used in optical tweezers experiments on biomolecules are customarily modeled by an extensible worm-like chain model. Fitting such a model to experimental data, however, is no trivial task, as the function depends on four parameters in a highly non-linear fashion. We hereby propose a method to bypass the fitting procedure and obtain an empirical force vs. extension curve that accurately reproduces the elasticity of the handles.
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