AI Article Synopsis
- Theoretical frameworks, like Wagner's canalization model, analyze the effects of natural selection on the development of phenotypes and genotypes in evolving gene networks.
- The paper reviews the Wagner model's applications and extends understanding through mathematical analysis, focusing on mutation rates and their impact on genotype compatibility, phenotype variability, and offspring viability.
- Notably, the study reveals that selecting for a specific phenotype can enhance the stability of other alternative phenotypes under stress and make gene networks more robust against various disruptions, ensuring evolutionary resilience in changing environments.
Article Abstract
Theoretical works have shed light on the impact of natural selection in shaping phenotypes and genotypes. Wagner's canalization model (Wagner, 1996) is one of the well-established models which describe emergent properties of evolving gene networks. In this paper, we propose a deeper theoretical understanding of this well-studied model and we extend its conclusions by characterizing new emergent properties of evolving networks. We start with the review of the Wagner model and its applications to robustness of gene networks, gene duplication and evolution of sexual reproduction. Then, we perform a mathematical analysis to gain a better understanding of the model evolutionary dynamics. Doing so paves the way to study systematically the impact of mutation rates on compatibility of genotypes, variability of phenotypes and viability of offspring in evolving populations. Finally, we derive new observations concerning two emergent properties concerning evolved genomes robustness. First, we show that selecting for development towards a specific phenotype also contributes to enhance the stability of other alternative phenotypes which can be revealed under stress. Second, we find that this generalized canalization also renders gene networks more robust towards gene deletion, loss of interactions, perturbations of regulation activity and mutations. Therefore, not only evolution selects for individuals robust to types of perturbation they have faced in previous generations, but also robust to types of perturbations they have never experienced.
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