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Tempo and mode of gene evolution revealed by the Lenski long-term evolution experiment

Xu, D.; Wu, H.; Wu, Y.

2026-03-18 evolutionary biology
10.64898/2026.03.17.712273 bioRxiv
Show abstract

The process of evolutionary change remains poorly understood. By analyzing genomic data from 12 populations in Lenskis long-term evolution experiment (LTEE) over 60,000 generations, we identified a clear sequence in gene adaptation: growth-related genes evolved early, while survival-related genes evolved later. Early-evolving genes exhibited higher rates of both nonsynonymous and synonymous substitutions. We also observed a general decline in gene evolutionary rates across LTEE populations, with additional data highlighting the role of fitness gains in determining evolutionary rates. These findings suggest that, in a relatively stable environment, the fitness gains from beneficial mutations decrease as adaptation progresses. This diminishing return on fitness gains may represent a key evolutionary rule, potentially contributing to evolutionary stasis and the prevalence of neutral evolution.

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