Department of Mathematics, Universiti Brunei Darussalam, Gadong, Brunei.
PeerJ. 2024 Mar 26;12:e17102. doi: 10.7717/peerj.17102. eCollection 2024.
The standard theory of evolution proposes that mutations cause heritable variations, which are naturally selected, leading to evolution. However, this mutation-led evolution (MLE) is being questioned by an alternative theory called plasticity-led evolution (PLE). PLE suggests that an environmental change induces adaptive phenotypes, which are later genetically accommodated. According to PLE, developmental systems should be able to respond to environmental changes adaptively. However, developmental systems are known to be robust against environmental and mutational perturbations. Thus, we expect a transition from a robust state to a plastic one. To test this hypothesis, we constructed a gene regulatory network (GRN) model that integrates developmental processes, hierarchical regulation, and environmental cues. We then simulated its evolution over different magnitudes of environmental changes. Our findings indicate that this GRN model exhibits PLE under large environmental changes and MLE under small environmental changes. Furthermore, we observed that the GRN model is susceptible to environmental or genetic fluctuations under large environmental changes but is robust under small environmental changes. This indicates a breakdown of robustness due to large environmental changes. Before the breakdown of robustness, the distribution of phenotypes is biased and aligned to the environmental changes, which would facilitate rapid adaptation should a large environmental change occur. These observations suggest that the evolutionary transition from mutation-led to plasticity-led evolution is due to a developmental transition from robust to susceptible regimes over increasing magnitudes of environmental change. Thus, the GRN model can reconcile these conflicting theories of evolution.
标准的进化论理论提出,突变导致可遗传的变异,这些变异被自然选择,从而导致进化。然而,这种由突变主导的进化(MLE)正受到一种名为可塑性主导进化(PLE)的替代理论的质疑。PLE 认为,环境变化会诱导适应性表型,这些表型随后在遗传上得到适应。根据 PLE,发育系统应该能够对环境变化做出适应性反应。然而,发育系统被认为对环境和突变扰动具有很强的稳健性。因此,我们预计会从一个稳健的状态过渡到一个可塑性的状态。为了验证这一假设,我们构建了一个基因调控网络(GRN)模型,该模型整合了发育过程、层次调节和环境线索。然后,我们模拟了它在不同环境变化幅度下的进化。我们的研究结果表明,这个 GRN 模型在大的环境变化下表现出 PLE,而在小的环境变化下表现出 MLE。此外,我们观察到,在大的环境变化下,GRN 模型容易受到环境或遗传波动的影响,但在小的环境变化下则具有稳健性。这表明由于大的环境变化,稳健性被打破了。在稳健性被打破之前,表型的分布是有偏差的,并与环境变化对齐,这将有助于在发生大的环境变化时快速适应。这些观察结果表明,从突变主导进化到可塑性主导进化的进化转变是由于发育从稳健状态向敏感状态的转变,这种转变随着环境变化幅度的增加而发生。因此,GRN 模型可以调和这两种相互冲突的进化理论。
