TABLE 3.
States | Transition rates |
---|---|
IC3 →IC2, C3→C2, BC3→BC2 | α11 = Tf × 8.5539/(4.71e-2×exp(−v/(17.0))+2.52e-1×exp(−v/(150))) |
IC2→IF, C2→C1, BC2→BC1 | α12 = Tf × 8.5539/(4.71e-2×exp(−v/(15.0))+2.52e-1×exp(−v/(150))) |
C1→O, BC1→BO | α13 = Tf × 8.5539/(4.71e-2×exp(−v/(12.0))+2.52e-1×exp(−v/(150))) |
IC2→IC3, C2→C3, BC2→BC3 | β11 = Tf × 5.65e-2×exp(−v/20.3) |
IF→IC2, C1→C2, BC1→BC2 | β12 = Tf × 2.99×exp(−(v-5)/20.3) |
O→C1, BO→BC1 | β13 = Tf × 2.59e-1×exp(−(v-10)/20.3) |
IC3→C3, IC2→C2, IF→C1 | α3 = Tf × 1.42e-5×exp(−v/(9.48)) |
C3→IC3, C2→IC2, C1→IF | β3 = Tf × 6.96×exp((v)/(1.67e1)) |
O→IF | α2 = Tf × 7.01×exp(v/(3.16e1)) |
IF→O | β2 = (α13×α2×α3)/(β13×β3) |
O→IS | βx = 2.08e-2×α3 |
IS→O | αx = 5.51e-2×α2 |
C3→BC3, C2→BC2, C1→BC1, O→BO | µ1 = 1.70e-07 |
BC3→C3, BC2→C2, BC1→C1, BO→O | µ2 = 5.66e-04 |
The first column indicates state transitions, while the second column specifies their corresponding transition rate names and equations. “Tf” is a temperature scaling factor calculated from a Q10 of 3 as described in the Supplementary Material of this work.