Automata on Genetic Code
Keywords:
Automata, Codons, Genetic Codes, Module Semi-automaton, Mathematical biology, RNA codes automation, DNA codons automataAbstract
Automata are system modeling and analysis tools. By using an automaton, researchers model an abstraction of the behavior of a system so that they can derive the answer with desired analysis from it. The emphasis of this article is the use of automata as a modeling tool to model, simulate, and analyze nucleotide codon processing. There is enormous potential for mathematical and computational approaches that lead to fundamental insights and important practical validation of genetic biology research. Mathematical and computational approaches have been valued in physics, and have played an increasingly crucial role in chemistry over the past twenty years. Now, more and more genetic biologists and biochemists are interested in using automata theory applications and mathematical methods in their work. This work is meant to study automata theory on genetic code. The automaton for the functioning of nucleotide codons of RNA is defined here along with building of different RNA-based automata that give the same state. The results have been illustrated with examples and non-examples besides presentation of example of a module semi-automatic machine.
URN:NBN:sciencein.jist.2023.v11.474
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Copyright (c) 2022 Mridul Dutta, Sanjoy Kalita, Padma Bhushan Borah
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