Counterion atmosphere around DNA double helix: Trapping of counterions at the nanoscale

• Main Authors: Perepelytsya, S. (Author), Zdorevskyi, O. (Author)
• Format: Article
• Language: English
• Published: American Institute of Physics Inc. 2022
• Subjects: Bioinformatics; Counter-ion atmosphere; Counterion condensation; Counterions; Developed model; DNA; DNA double helices; Localised; Metal ions; Metals; Model estimation; Molecular dynamics; Nano scale; Phosphate group; Polyelectrolytes
• Online Access: View Fulltext in Publisher

 DNA is a strong polyelectrolyte macromolecule making metal ions (counterions) condense to a cloud around the double helix. The counterions may be localized outside the macromolecule and inside the minor and major grooves of the double helix. In the present work, the distribution of condensed counterions between inner and outer regions of DNA has been studied using the approaches of counterion condensation theory. The results have shown that the number of counterions trapped inside the macromolecule should be greater than 0.16 per one phosphate group. The maximal number of counterions that may be localized inside the DNA double helix is limited to about 0.4 per one phosphate group and it is much lower than the total number of condensed counterions. To analyze the structure of counterion cloud the molecular dynamics simulations of B-DNA with K+ counterions have been performed. The obtained number of the counterions trapped inside the grooves of the double helix is about 0.22 ± 0.06 per one phosphate group that agree with the model estimations. The developed model describes general features of the structure of counterion cloud around DNA and is able to predict the number of counterions inside the grooves of the double helix. © 2022 Author(s).