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Effect of DNA Flexibility on Complex Formation of a Cationic Nanoparticle with Double-Stranded DNA

Sehui Bae, Inrok Oh, Jejoong Yoo, Jun Soo Kim

2021ACS Omega13 citationsDOIOpen Access PDF

Abstract

We present extensive molecular dynamics simulations of a cationic nanoparticle and a double-stranded DNA molecule to discuss the effect of DNA flexibility on the complex formation of a cationic nanoparticle with double-stranded DNA. Martini coarse-grained models were employed to describe double-stranded DNA molecules with two different flexibilities and cationic nanoparticles with three different electric charges. As the electric charge of a cationic nanoparticle increases, the degree of DNA bending increases, eventually leading to the wrapping of DNA around the nanoparticle at high electric charges. However, a small increase in the persistence length of DNA by 10 nm requires a cationic nanoparticle with a markedly increased electric charge to bend and wrap DNA around. Thus, a more flexible DNA molecule bends and wraps around a cationic nanoparticle with an intermediate electric charge, whereas a less flexible DNA molecule binds to a nanoparticle with the same electric charge without notable bending. This work provides solid evidence that a small difference in DNA flexibility (as small as 10 nm in persistence length) has a substantial influence on the complex formation of DNA with proteins from a biological perspective and suggests that the variation of sequence-dependent DNA flexibility can be utilized in DNA nanotechnology as a new tool to manipulate the structure of DNA molecules mediated by nanoparticle binding.

Topics & Concepts

Persistence lengthDNACationic polymerizationNanoparticleMoleculeBiophysicsStatic electricityNanotechnologyFlexibility (engineering)Materials scienceChemical physicsElectric chargeChemistryPolymer chemistryPhysicsBiochemistryBiologyOrganic chemistryStatisticsQuantum mechanicsMathematicsDNA and Nucleic Acid ChemistryAdvanced biosensing and bioanalysis techniquesRNA Interference and Gene Delivery
Effect of DNA Flexibility on Complex Formation of a Cationic Nanoparticle with Double-Stranded DNA | Litcius