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A Search for the Physical Basis of the Genetic Code

keywords CODONS, DNA, ENTROPY, GENETIC CODE

Reference persons JACEK ADAM TUSZYNSKI

External reference persons Dr. Lloyd Demetrius, Max Planck Institute, Goettingen and Harvard University

Research Groups 28- biomedica

Thesis type THEORETICAL

Description DNA contains the genetic code, which provides complete information about the synthesis of proteins in every living cell. Each gene encodes for a corresponding protein but most of the DNA sequence is non-coding. In addition to this non-coding part of the DNA, there is another redundancy, namely a multiplicity of DNA triplets (codons) assigned to code for a given amino acid. In this project, we will investigate possible physical reasons for the coding redundancy exploring free energy considerations and abundance probabilities as potential insights. A new insight may be gained from the use of directional entropy, a more general concept than Boltzmann's entropy that is used in the second law of thermodynamics. According to the principles of directional entropy formulated by our collaborator, Dr. Demetrius, depending on the availability of resources, the value of directional entropy can increase or decrease in living systems. We will explore consequences of this conclusion in the case of the genetic code.

Required skills basic knowledge of biophysics and statistical mechanics


Deadline 24/11/2023      PROPONI LA TUA CANDIDATURA




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