Popis: |
Which factors govern the evolution of mutation rates and emergence of species? Here, we address this question using a first principles model of life where population dynamics of asexual organisms is coupled to molecular properties and interactions of proteins encoded in their genomes. Simulating evolution of populations, we found that fitness increases in punctuated steps via epistatic events, leading to formation of stable and functionally interacting proteins. At low mutation rates, species - populations of organisms with identical genotypes - form, while at higher mutation rates, species are lost through delocalization in sequence space without an apparent loss of fitness. However, when mutation rate was a selectable trait, the population initially maintained high mutation rate until a high fitness level is reached, after which organisms with low mutation rates are gradually selected, with the population eventually reaching mutation rates comparable to those of modern DNA-based organisms. These results provide microscopic insights into the dynamic fitness landscape of asexual populations of unicellular organisms. |