Application in Bioremediation, Psychology, Forestry, and Biofilm Development
DOI:
https://doi.org/10.9734/bpi/imb/v7/2890CKeywords:
Computer-based iterated prisoner’s dilemma (IPD) scoring matrix, moran model, capillary feeder (CAFE) assay, prisoner's dilemma, clonal interference model, game theory methodAbstract
When a living organism performs a procedure in a given situation, it begins to update itself based on that situation. In this hypothetical theoretical research work, game theory is used to provide a hypothetical theory. Two different species (assume hypothetical species A+ and B-) are transferred through the system of various five compartments, according to this theory. In the presence of a specific external environment element, species A + and B- travelling through the five compartment model system can only do so in one compartment (compartment E).
If compartment E has a limited amount of an essential carbon source for the bacteriological system, species A+ and B- are likely to compete at first, but continuous contact with each other in sequence will convert corporations into compartment E for restricted sucrose self-uptake by species A+. Competition will be decreased, allowing species B- to use it as well. By transferring adapted bacteria to drosophila, the Bacterial system's adaptation behaviour can be validated using a capillary feeder assay (CAFÉ Assay).
