Litcius/Paper detail

A computational model for structural dynamics and reconfiguration of DNA assemblies

Jae Young Lee, Heeyuen Koh, Do‐Nyun Kim

2023Nature Communications15 citationsDOIOpen Access PDF

Abstract

Recent advances in constructing a structured DNA assembly whose configuration can be dynamically changed in response to external stimuli have demanded the development of an efficient computational modeling approach to expedite its design process. Here, we present a computational framework capable of analyzing both equilibrium and non-equilibrium dynamics of structured DNA assemblies at the molecular level. The framework employs Langevin dynamics with structural and hydrodynamic finite element models that describe mechanical, electrostatic, base stacking, and hydrodynamic interactions. Equilibrium dynamic analysis for various problems confirms the solution accuracy at a near-atomic resolution, comparable to molecular dynamics simulations and experimental measurements. Furthermore, our model successfully simulates a long-time-scale close-to-open-to-close dynamic reconfiguration of the switch structure in response to changes in ion concentration. We expect that the proposed model will offer a versatile way of designing responsive and reconfigurable DNA machines.

Topics & Concepts

Control reconfigurationDNAComputer scienceDynamics (music)Computational biologyMolecular dynamicsBiologyGeneticsChemistryPhysicsEmbedded systemComputational chemistryAcousticsAdvanced biosensing and bioanalysis techniquesDNA and Nucleic Acid ChemistryDNA and Biological Computing