Application in Bioremediation, Psychology, Forestry, and Biofilm Development
A living thing starts to modify itself based on the actions it takes in a particular situation. Game theory is employed to provide a hypothetical theory in this hypothetical theoretical research study. According to this hypothesis, two different species (let’s say hypothetical species A+ and B-) are transported through the system of varied five compartments. Species A + and B- moving through the five compartment model system can only do so in one compartment if a particular external environment element is present.
Species A+ and B- are likely to compete at first if compartment E only has a little amount of an essential carbon source for the bacterial system, but ongoing interactions between them in succession will transform them into compartment E for species A+’s limited sucrose self-uptake. Because there will be less competition, species B- will also be able to utilise it. Bacterial system adaptation behavior can be verified using a capillary feeder assay (CAFÉ Assay) by transferring adapted bacteria to drosophila.
Department of Microbiology and Biotechnology Centre, M. S. University, Baroda, India.
Please see the link here: https://stm.bookpi.org/IMB-V7/article/view/8053
Keywords: Computer-based iterated prisoner’s dilemma (IPD) scoring matrix, moran model, capillary feeder (CAFE) assay, prisoner’s dilemma, clonal interference model, game theory method