TITLE:
Nonextensivity and Tsallis Entropy in DNA Fragmentation Patterns by Ionizing Radiation
AUTHORS:
Carlos Antonio Marante Valdés, Fidel Antonio Castro Smirnov, Oscar Rodríguez Hoyos, João Dias de Toledo Arruda-Neto
KEYWORDS:
Nonextensive Statistics; Tsallis Entropy; DNA Fragment Distribution; Theoretical Distribution; Fragment Minimum Length; DNA Data Analysis
JOURNAL NAME:
Journal of Modern Physics,
Vol.3 No.6,
June
21,
2012
ABSTRACT: Nonextensive statistical mechanics as in Tsallis formalism was used in this study, along with the dynamical Hamiltonian rod-like DNA model and the maximum entropy criteria for Tsallis’ entropy, so as to obtain length distribution of plasmid fragments, after irradiation with very high doses, assuming that the system reaches metaequilibrium. By intensively working out the Grand Canonical Ensemble (used to take into account the variation of the number of base pairs) a simplified expression for Fragment Size Distribution Function (FSDF) was obtained. This expression is dependent on two parameters only, the Tsallis q value and the minimal length of the fragments. Results obtained from fittings to available experimental data were adequate and the characteristic behavior of the shortest fragments was clearly documented and reproduced by the model, a circumstance never verified from theoretical distributions. The results point to the existence of an entropy which characterizes fragmentation processes and depending only on the q entropic index.