Monte Carlo Simulations of the Inside Intron Recombination

Abstract: Biological genomes are divided into coding and non-coding regions. Introns are non-coding parts within genes, while the remaining non-coding parts are intergenic sequences. To study evolutionary significance of the inside intron recombination we have used two models based on the Monte Carlo method. In our computer simulations we have implemented the internal structure of genes by declaring the probability of recombination between exons. One situation when inside intron recombination is advantageous is recoveri… Show more

“…If the environment turns to demand the function again, this fraction of population could be in risk of genetic death. Computer models have shown that populations considerably shrinks in such conditions passing through the so called bottle neck or could be even extinct [18].…”

Modelling the Evolution of Spatially Distributed Populations in the Uniformly Changing Environment - Sympatric Speciation

“…If the environment turns to demand the function again, this fraction of population could be in risk of genetic death. Computer models have shown that populations considerably shrinks in such conditions passing through the so called bottle neck or could be even extinct [18].…”

Modelling the Evolution of Spatially Distributed Populations in the Uniformly Changing Environment - Sympatric Speciation

“…Work based on the Penna model (26), for instance (27), creates simulations based on the assumption that aging is the result of an accumulation of uncorrected mutations. Assuming that the rate of mutation is known, in a stochastic model, the distribution of the number of mutations at various ages can be created.…”

A Poisson-like model of sub-clinical signs from the examination of healthy aging subjects