When we perform the steady-state stability analysis, we find
that the system evolves from an asymptotically stable state to a
limit cycle in the form of periodic oscillations when we decrease
the glucose concentration from 25 mM down. A similar behavior is
observed at decreasing Pi. When we reach low values of both Glu
and Pi, the system exhibits a series of unstable states that lacks
physical sense.
We can see in Fig.15 the relation between ATP and NADH at
5 mM of Glu and 0.5 mM of Pi.
An interesting fact is that the oscillations period observed
(2–4 days) is close to the values experimentally found by Potter
[148] in rat hepatoma (six diploids and another three rat
Fig. 13Variation of LZ complexity with glucose concentration (2.5; 5 and 25 mM)
Fig. 14Variation of LZ complexity with inorganic phosphate concentration (0.5;
1 and 2 mM)
Parameters Estimation in Phase-Space Landscape Reconstruction of Cell Fate... 161