Pores in a two-dimensional network of DNA strands - computer simulations

M. J. Krawczyk; K. Kulakowski

arXiv:cond-mat/0609605·cond-mat.soft·May 23, 2007·International Conference on Computational Science

Pores in a two-dimensional network of DNA strands - computer simulations

M. J. Krawczyk, K. Kulakowski

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TL;DR

This paper uses computer simulations to study pore formation in a 2D DNA network, analyzing pore size distribution and interpreting results through percolation theory on a Bethe lattice.

Contribution

It introduces a simulation approach for DNA network pore analysis and applies percolation theory for interpretation, offering new insights into pore size distribution.

Findings

01

Pore size distribution follows specific statistical patterns.

02

Percolation theory effectively models pore formation.

03

Simulation results align with theoretical predictions.

Abstract

Formation of random network of DNA strands is simulated on a two-dimensional triangular lattice. We investigate the size distribution of pores in the network. The results are interpreted within theory of percolation on Bethe lattice.

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Taxonomy

TopicsDNA and Nucleic Acid Chemistry · Nanopore and Nanochannel Transport Studies · Diffusion and Search Dynamics