Authors: Xiaoyi Zhang, Zhiyuan Li, Lei Zhang.
Journal: Cell Systems
DOI: 10.1021/jacs.6c01193
Link: https://pubs.acs.org/doi/10.1021/jacs.6c01193
Published: Apr, 15, 2026
Document Type: Research Article
Abstract:
The Waddington landscape metaphor has inspired extensive quantitative studies of cell fate decisions using dynamical systems. While these approaches provide valuable insights, the intrinsic nonlinear complexity and the parameter dependence limit systematic analysis of fate transitions. Here, we introduce the hyper solution landscape (HSL), a minimally parameter-dependent methodology showing a comprehensive structure of all possible landscape configurations for gene regulatory networks. HSL connects different solution landscapes to reflect dynamic changes in the landscapes associated with bifurcations. Applied to the cross-inhibition with self-activation motif, HSL analysis identifies key hyperparameters driving distinct directional changes in cell-fate propensity. Different routes through the HSL between the same initial and final states can produce markedly different fate distributions. This enables the rational design of transition strategies. We validate the HSL’s utility in the seesaw model of cellular reprogramming, establishing a powerful framework for understanding and engineering cell-fate decisions. A record of this paper’s transparent peer review process is included in the supplemental information.