Zintzaras, Elias and Santos, Mauro and Szathmáry, Eörs (2010) Selfishness versus functional cooperation in a stochastic protocell model. Journal of Theoretical Biology, 267 (4). pp. 605-613.
Available under License Creative Commons Attribution No Derivatives.
How to design an "evolvable" artificial system capable to increase in complexity? Although Darwin's theory of evolution by natural selection obviously offers a firm foundation, little hope of success seems to be expected from the explanatory adequacy of modern evolutionary theory, which does a good job at explaining what has already happened but remains practically helpless at predicting what will occur. However, the study of the major transitions in evolution clearly suggests that increases in complexity have occurred on those occasions when the conflicting interests between competing individuals were partly subjugated. This immediately raises the issue about "levels of selection" in evolutionary biology, and the idea that multi-level selection scenarios are required for complexity to emerge. After analyzing the dynamical behaviour of competing replicators within compartments, we show here that a proliferation of differentiated catalysts and/or improvement of catalytic efficiency of ribozymes can potentially evolve in properly designed artificial cells. Experimental evolution in these systems will likely stand as beautiful examples of artificial adaptive systems, and will provide new insights to understand possible evolutionary paths to the evolution of metabolic complexity.
|Additional Information:||Uploaded by Viktor Müller (participant of the OTKA project)|
|Subjects:||Q Science / természettudomány > QH Natural history / természetrajz > QH301 Biology / biológia|
|Depositing User:||Viktor Müller|
|Date Deposited:||27 Jan 2012 07:34|
|Last Modified:||03 Sep 2012 13:07|
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