Coupling limit cycles to reaction-diffusion systems allows dynamic exploration of Turing-permissive regimes, generating transient patterns and improving robustness via an entropy-based Fourier measure.
Cell Syst 1:408–416
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Review of the fin-to-limb transition proposing a systems biology approach using theory, modeling, and experiments to provide a mechanical explanation for differences between fins and limbs and resolve the homology debate.
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How nature discovers rare Turing islands: exploration by common limit cycles
Coupling limit cycles to reaction-diffusion systems allows dynamic exploration of Turing-permissive regimes, generating transient patterns and improving robustness via an entropy-based Fourier measure.
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Systems biology approach to the origin of the tetrapod limb
Review of the fin-to-limb transition proposing a systems biology approach using theory, modeling, and experiments to provide a mechanical explanation for differences between fins and limbs and resolve the homology debate.