Table 2.
The system of ordinary differential equations for the biochemical kinetics of the apoptosis signaling pathways. Blocks A, B, and C list the equations involved in extrinsic, intrinsic, and perforin pathways, respectively, and block D contains the equations used in all three pathways.
| A | d[FasL∗]/dt = k 11[Secretome][FasL] − k 12 +[FasL∗][Casp8] + k 12 −[FasL∗.Casp8] |
| d[Casp8]/dt = −k 12 +[FasL∗][Casp8] + k 12 −[FasL∗.Casp8] | |
| d[FasL∗.Casp8]/dt = k 12 +[FasL∗][Casp8] − k 12 −[FasL∗.Casp8] − k 13[FasL∗.Casp8] | |
| d[Casp8∗]/dt = k 13[FasL∗.Casp8] − k 14 +[Casp8∗][Casp3] + k 14 −[Casp8∗.Casp3] + k 15[Casp8∗.Casp3] − k 16[Casp8∗][Casp3∗] | |
| −k 51 +[Casp8∗][Bid] + k 51 −[Casp8∗.Bid] | |
| d[Casp8∗.Bid]/dt = k 51 +[Casp8∗][Bid] − k 51 −[Casp8∗.Bid] − k 52[Casp8∗.Bid] | |
| d[Casp8∗.Casp3]/dt = k 14 +[Casp8∗][Casp3] − k 14 −[Casp8∗.Casp3] − k 15[Casp8∗.Casp3] | |
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| B | d[DNAdamage]/dt = k 21[Secretome][DNA] − k 22[DNAdamage][ATR] |
| d[ATR∗]/dt = k 22[DNAdamage][ATR] − k 23 +[ATR∗][p53] + k 23 −[ATR∗.p53] | |
| d[p53]/dt = −k 23 +[ATR∗][p53] + k 23 −[ATR∗.p53] | |
| d[ATR∗.p53]/dt = k 23 +[ATR∗][p53] − k 23 −[ATR∗.p53] − k 24[ATR∗.p53] | |
| d[p53∗]/dt = k 24[ATR∗.p53] − k 25 +[p53∗][Bax] + k 25 −[p53∗.Bax] + k 27 −[p53∗.BCl2] − k 27 +[BCl2][p53∗] | |
| d[Bax]/dt = −k 25 +[p53∗][Bax] + k 25 −[p53∗.Bax] − k 28 +[BCl2][Bax] + k 28 −[BCl2.Bax] | |
| −k 55 +[tBid][Bax] + k 55 −[tBid.Bax] | |
| d[p53∗.Bax]/dt = k 25 +[p53∗][Bax] − k 25 −[p53∗.Bax] − k 26[p53∗.Bax] | |
| d[Bax.Bak]/dt = k 26[p53∗.Bax] + k 56[tBid.Bax] | |
| d[tBid.Bax]/dt = k 55 +[tBid][Bax] − k 55 −[tBid.Bax] − k 56[tBid.Bax] | |
| d[BCl2]/dt = −k 27 +[BCl2][p53∗] + k 27 −[p53∗.BCl2] − k 28 +[BCl2][Bax] + k 28 −[BCl2.Bax] | |
| d[p53∗.BCl2]/dt = k 27 +[BCl2][p53∗] − k 27 −[p53∗.BCl2] | |
| d[BCl2.Bax]/dt = k 28 +[BCl2][Bax] − k 28 −[BCl2.Bax] | |
| d[Cytcmit]/dt = −k 29[Bax.Bak][Cytcmit] | |
| d[Cytc]/dt = k 29[Bax.Bak][Cytcmit] − k 30 +[Cytc][Casp9] + k 30 −[Cytc.Casp9] | |
| d[Casp9]/dt = −k 30 +[Cytc][Casp9] + k 30 −[Cytc.Casp9] | |
| d[Cytc.Casp9]/dt = k 30 +[Cytc][Casp9] − k 30 −[Cytc.Casp9] − k 31[Cytc.Casp9] | |
| d[Casp9∗]/dt = k 31[Cytc.Casp9] − k 32 +[Casp9∗][Casp3] + k 32 −[Casp9∗.Casp3] + k 33[Casp9∗.Casp3] − k 34[Casp9∗][Casp3∗] | |
| d[Casp9∗.Casp3]/dt = k 32 +[Casp9∗][Casp3] − k 32 −[Casp9∗.Casp3] − k 33[Casp9∗.Casp3] | |
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| C | d[granB∗]/dt = k 41[Secretome][granB] − k 42 +[granB∗][Casp10] + k 42 −[granB∗.Casp10] − k 53 +[granB∗][Bid] + k 53 −[granB∗.Bid] |
| d[granB∗.Bid]/dt = k 53 +[granB∗][Bid] − k 53 −[granB∗.Bid] − k 54[granB∗.Bid] | |
| d[Casp10]/dt = −k 42 +[granB∗][Casp10] + k 42 −[granB∗.Casp10] | |
| d[granB∗.Casp10]/dt = k 42 +[granB∗][Casp10] − k 42 −[granB∗.Casp10] − k 43[granB∗.Casp10] | |
| d[Casp10∗]/dt = k 43[granB∗.Casp10] − k 44 +[Casp10∗][Casp3] + k 44 −[Casp10∗.Casp3] + k 45[Casp10∗.Casp3] − k 46[Casp10∗][Casp3∗] | |
| d[Casp10∗.Casp3]/dt = k 44 +[Casp10∗][Casp3] − k 44 −[Casp10∗.Casp3] − k 45[Casp10∗.Casp3] | |
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| D | d[Bid]/dt = −k 51 +[Casp8∗][Bid] + k 51 −[Casp8∗.Bid] − k 53 +[granB∗][Bid] + k 53 −[granB∗.Bid] |
| d[tBid]/dt = k 52[Casp8∗.Bid] + k 54[granB∗.Bid] − k 55 +[tBid][Bax] + k 55 −[tBid.Bax] | |
| d[Casp3]/dt = −k 14 +[Casp8∗][Casp3] + k 14 −[Casp8∗.Casp3] − k 32 +[Casp9∗][Casp3] + k 32 −[Casp9∗.Casp3] | |
| −k 44 +[Casp10∗][Casp3] + k 44 −[Casp10∗.Casp3] | |
| d[Casp3∗]/dt = k 15[Casp8∗.Casp3] − k 16[Casp8∗][Casp3∗] + k 33[Casp9∗.Casp3] − k 34[Casp9∗][Casp3∗] | |
| +k 45[Casp10∗.Casp3] − k 46[Casp10∗][Casp3∗] | |
| d[Apop]/dt = k 16[Casp8∗][Casp3∗] + k 34[Casp9∗][Casp3∗] + k 46[Casp10∗][Casp3∗] | |