The content presents a mathematical model that explores the evolutionary dynamics of ageing. Key insights:
The model shows that the end of fertility and the onset of senescence necessarily converge over evolutionary time, regardless of the initial trait values. This explains the observed trade-offs between fertility and lifespan.
Populations with a transgenerational "Lansing effect" that transmits ageing information to offspring are more successful than non-Lansing populations, despite the individual fitness cost of ageing. This is because Lansing populations exhibit higher evolvability, generating more genetic variation.
The model demonstrates that ageing is not a byproduct of evolution, but an adaptive mechanism that increases a population's ability to explore genotypic space and respond to environmental changes. The mathematical constraints of the model lead to the selection and maintenance of mechanisms coupling fertility and senescence.
The analysis provides a formal explanation for the biphasic pattern of ageing, with a clear transition from a healthy phase to a senescent phase. This is observed across diverse organisms, including the evolutionarily conserved "Smurf" phenotype.
The model is agnostic to the specific nature of the transgenerational effect, suggesting that the mere transmission of any negative effect from old to young would be sufficient to confer the adaptive benefits of increased evolvability.
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by Roget,T., Jo... lúc www.biorxiv.org 03-14-2022
https://www.biorxiv.org/content/10.1101/2022.03.11.483978v4Yêu cầu sâu hơn