Monte Carlo Simulation of Arbitrium and the Probabilistic Behavior of Bacteriophages

Abstract

From the fact that phage takes a random decision to opt either by lysis or lysogeny, this paper has carried out a Montecarlo simulation of the attack of phage against bacteria. When it is assumed random variables along the attack, then it would produce a indecision for having lysis or lysogeny that is quantitatively seen as a small probability for both scenarios. Thus a delay emerges that is favorable to bacteria in the sense that phages might to be disorganized and destabilize because their ambition. This can also be understood as a scenario of interference by which the molecular messengers emitted by phages is abundant, so that more subprocesses together to lysis and lisogeny might be manifested. It has been assumed that messengers become negatively or positively charged, yielding to attraction or repulsion among genes. Thus, the decision for lysis and lysogeny would have a random origin in conjunction to Coulomb’s forces.