Entropy (Jul 2024)

Evolution of Telencephalon Anterior–Posterior Patterning through Core Endogenous Network Bifurcation

  • Chen Sun,
  • Mengchao Yao,
  • Ruiqi Xiong,
  • Yang Su,
  • Binglin Zhu,
  • Yong-Cong Chen,
  • Ping Ao

DOI
https://doi.org/10.3390/e26080631
Journal volume & issue
Vol. 26, no. 8
p. 631

Abstract

Read online

How did the complex structure of the telencephalon evolve? Existing explanations are based on phenomena and lack a first-principles account. The Darwinian dynamics and endogenous network theory—established decades ago—provides a mathematical and theoretical framework and a general constitutive structure for theory–experiment coupling for answering this question from a first-principles perspective. By revisiting a gene network that explains the anterior–posterior patterning of the vertebrate telencephalon, we found that upon increasing the cooperative effect within this network, fixed points gradually evolve, accompanied by the occurrence of two bifurcations. The dynamic behavior of this network is informed by the knowledge obtained from experiments on telencephalic evolution. Our work provides a quantitative explanation for how telencephalon anterior–posterior patterning evolved from the pre-vertebrate chordate to the vertebrate and provides a series of verifiable predictions from a first-principles perspective.

Keywords