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Stretching of Long Double-Stranded DNA and RNA Described by the Same Approach

Alexander Y. Afanasyev, Alexey V. Onufriev

2022Journal of Chemical Theory and Computation11 citationsDOI

Abstract

We propose an approach to help interpret polymer force-extension curves that exhibit plateau regimes. When coupled to a bead-spring dynamic model, the approach accurately reproduces a variety of experimental force-extension curves of long double-stranded DNA and RNA, including torsionally constrained and unconstrained DNA and negatively supercoiled DNA. A key feature of the model is a specific nonconvex energy function of the spring. We provide an algorithm to obtain the five required parameters of the model from experimental force-extension curves. The applicability of the approach to the force-extension curves of double-stranded (ds) DNA of variable GC content as well as to a DNA/RNA hybrid structure is explored and confirmed. We use the approach to explain counterintuitive sequence-dependent trends and make predictions. In the plateau region of the force-extension curves, our molecular dynamics simulations show that the polymer separates into a mix of weakly and strongly stretched states without forming macroscopically distinct phases. The distribution of these states is predicted to depend on the sequence.

Topics & Concepts

Extension (predicate logic)DNAPlateau (mathematics)RNABiological systemStatistical physicsPhysicsComputer scienceMathematicsBiologyGeneticsMathematical analysisGeneProgramming languageDNA and Nucleic Acid ChemistryRNA and protein synthesis mechanismsBacteriophages and microbial interactions
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