Probability of DNA knotting and the effective diameter of the DNA double helix. 论文

1993Proceedings of the National Academy of Sciences引用 424
Biochemical and Structural CharacterizationGeometric and Algebraic TopologyAlgorithms and Data Compression

详细信息

发表期刊/会议
Proceedings of the National Academy of Sciences
发表日期
1993-06-01
发表年份
1993

关键词

Biochemical and Structural CharacterizationGeometric and Algebraic TopologyAlgorithms and Data Compression

摘要

During the random cyclization of long polymer chains, knots of different types are formed. We investigated experimentally the distribution of knot types produced by random cyclization of phage P4 DNA via its long cohesive ends. The simplest knots (trefoils) predominated, but more complex knots were also detected. The fraction of knots greatly diminished with decreasing solution Na+ concentration. By comparing these experimental results with computer simulations of knotting probability, we calculated the effective diameter of the DNA double helix. This important excluded-volume parameter is a measure of the electrostatic repulsion between segments of DNA molecules. The calculated effective DNA diameter is a sensitive function of electrolyte concentration and is several times larger than the geometric diameter in solutions of low monovalent cation concentration.