Topology and Physics of Circular Dnafrom the Series: Physical Approaches To DNA ebook

Alexander Vologodskii.

Alexander Vologodskii.

Topology and Physics of Circular DNA presents comprehensive coverage of the physical properties of circular DNA. The author examines how topological constraints arising from cyclization of DNA lead to distinctive properties that make closed molecules radically different from linear DN. Topology and Physics of Circular DNA presents comprehensive coverage of the physical properties of circular DNA. The author examines how topological constraints arising from cyclization of DNA lead to distinctive properties that make closed molecules radically different from linear DNA.

Other books in this series. Geometry and topology of circular dna. Ribbon theory. 6% off. Revival: Ultraviolet Light in Water and Wastewater Sanitation (2002). Principal Properties of Writhe. Formation of noncanonical structures under the impact of negative supercoiling. Experimental methods of analysis of noncanonical structures in circular dna. Methods of Localization of Structural Transitions.

The combination of consistent theoretical analysis and detailed treatment of major experimental approaches make Topology and Physics of Circular DNA an important reference volume for biophysicists, biochemists, molecular. The author examines how topological constraints arising from cyclization of DNA lead to distinctive properties that make closed molecules radically different from. The phenomenon of supercoiling, its geometric and topological analysis, and the formation of noncanonical structures in circular DNA under the influence of supercoiling.

Topology and Physics of Circular DNA (1992). Sequence dependence of DNA bending rigidity. S Geggier, A Vologodskii. Proceedings of the National Academy of Sciences 107 (35), 15421-15426, 2010. Torsional and bending rigidity of the double helix from data on small DNA rings. MD Frank-Kamenetskii, AV Lukashin, VV Anshelevich, AV Vologodskii. Journal of Biomolecular Structure and Dynamics 2 (5), 1005-1012, 1985. The effect of ionic conditions on DNA helical repeat, effective diameter and free energy of supercoiling

Topology and Physics of Circular DNA presents comprehensive coverage of the physical properties of circular DN. Alexander Vologodskii. We have determined the temperature dependence of DNA persistence length, a, using two different methods

Topology and Physics of Circular DNA presents comprehensive coverage of the physical properties of circular DNA. The phenomenon of supercoiling, its geometric and topological. We have determined the temperature dependence of DNA persistence length, a, using two different methods. The first approach was based on measuring the j-factors of short DNA fragments at various temperatures.

by Alexander Vologodskii. series CRC Press Revivals.