| | Name | Initial Conc. (uM) | Volume (fL) | Buffered |
| 1 | Aspartate | 0 | 1.41 | Yes |
| | Aspartate = 0.0 uM As per Signal 0 in 1SIG_B.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 2 | Bias | 0.768 | 1.41 | No |
| | Bias calculated as per formula stated on pp.471 M + MYp Bias = ---------------------------------------- M + MYp + MYpYp + MYpYpYp + MYpYpYpYp Bray et al 1993, Mol.Biol.Cell 4: 469-482 Initialy set to 0.7 |
| 3 | CheA | 1.13 | 1.41 | No |
| | CheA = 1.13e-06 M = 1.13 uM As per Signal in 1SIG_B.BCT provided by Matthew Levin CheA = 4250 molecules per cell As per Enzyme entry 4 in 1ENZ.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 4 | CheAp | 0.569 | 1.41 | No |
| | CheAp = 5.69e-07 M = 5.69e-1 uM As per Signal entry 17 in 1SIG_B.BCT Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 5 | CheB | 1.62 | 1.41 | No |
| | CheB = 1.62e-06 M = 1.62 uM As per Signal 18 in 1SIG_B.BCT provided by Matthew Levin CheB = 1700 molecules per cell As per Enzyme entry 2 in 1ENZ.BCT provided by Cell volume = 1.41e-15 L Bray et al 1993, Mol.Biol.Cell 4: 469-482 Table 1 pp.474 |
| 6 | CheBp | 0.381 | 1.41 | No |
| | CheBp = 3.81e-07 M = 3.81e-1 uM As per Signal entry 19 in 1SIG_B.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 7 | CheW | 1.37 | 1.41 | No |
| | CheW = 1.37 uM As per Signal 5 in 1SIG_B.BCT provided by Matthew Levin CheW = 4250 molecules per cell As per Enzyme entry 3 in 1ENZ.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 8 | CheY | 9.88 | 1.41 | No |
| | CheY = 9.88e-06 M = 9.88 uM As per Signal 21 in 1SIG_B.BCT provided by Matthew Levin CheY = 8500 molecules per cell As per Enzyme entry 5 in 1ENZ.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 9 | CheYp | 0.01 | 1.41 | No |
| | CheYp = 1.24e-07 M = 1.24e-01 uM As per Signal 22 in 1SIG_B.BCT provided by Matthew Levin CheYp = 1e-08 M = 1e-2 uM As per Set_Yp configuration in 1CONFIG.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 10 | CheZ | 20 | 1.41 | No |
| | CheZ = 2.00e-05 M = 20 uM As per Signal 20 in 1SIG_B.BCT provided by Matthew Levin CheZ = 17000 molecules per cell As per Enzyme entry 6 in 1ENZ.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 11 | CW_rotation | 0 | 1.41 | No |
| | Sum total of MYpYpYp and MYpYpYpYp which is responsible for CW rotation of the flagella Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 12 | Denominator | 0 | 1.41 | No |
| | Denominator value to calculate bias as stated on pp.471Bias = [ M + MYp ] / [M + MYp + MYpYp + MYpYpYp + MYpYpYpYp] Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 13 | Motor | 0.0067 | 1.41 | No |
| | Motor = 8.5 molecules per cell As per Enzyme entry 7 in 1ENZ.BCT provided by Matthew Levin Motor = 6.73e-9 M = 6.73e-3 uM As per Signal 23 in 1SIG_B.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 14 | MYp | 0.001 | 1.41 | No |
| | MYp = 9.53*e-10 M = 9.53*e-4 uM As per Signal 24 in 1SIG_B.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 15 | MYpYp | 0.0004 | 1.41 | No |
| | MYpYp = 3.66e-10 M = 3.66e-4 uM As per Signal 25 in 1SIG_B.BCT provided by Matthew Levin MYpYp is responsible for pause in rotation of flagella Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 16 | MYpYpYp | 0.0004 | 1.41 | No |
| | MYpYpYp = 4.47e-10 M = 4.47e-4 uM As per Signal 26 in 1SIG_B.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 17 | MYpYpYpYp | 0.0015 | 1.41 | No |
| | MYpYpYpYp = 1.51e-09 M = 1.51e-3 uM As per Signal 27 in 1SIG_B.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 18 | Ni | 0 | 1.41 | No |
| | Ni = 0.0 uM As per Signal 1 in 1SIG_B.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 19 | Numerator | 0 | 1.41 | No |
| | Numerator value to calculate bias as stated on pp.471 Bias = [M + MYp] / [M + MYp + MYpYp + MYpYpYp + MYpYpYpYp] Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 20 | Ta | 0 | 1.41 | No |
| | Aspartate bound Tar Ta = 0.0 M As per Signal 3 in 1SIG_B.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 21 | TA | 1.55 | 1.41 | No |
| | Tar-CheA complex TA = 1.55e-06 M = 1.55 uM As per Signal entry 9 in 1SIG_B.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 22 | TaA | 0 | 1.41 | No |
| | Tar-Asp-CheA complex TaA = 0 M As per Signal 10 in 1SIG_B.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 23 | Tar | 1.37 | 1.41 | No |
| | Tar = 1.37e-06 M = 1.37 uM As per Signal 2 in 1SIG_B.BCT provided by Matthew Levin Tar = 4250 molecules per cell As per Enzyme entry 0 in 1ENZ.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 24 | TaW | 0 | 1.41 | No |
| | Aspartate bound Tar and CheW complex TaW = 0 M As per Signal 7 in 1SIG_B.BCT Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 25 | TaWA | 0 | 1.41 | No |
| | Tar-CheW-CheA-Aspartate complex TaWA = 0 M As per Signal 14 in 1SIG_B.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Bray et al 1993, Mol.Biol.Cell 4: 469-482 Table 1. pp.474 |
| 26 | Tn | 0 | 1.41 | No |
| | Ni bound Tar Ni-Tar = 0 M As per Signal 4 in 1SIG_B.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 27 | TnA | 0 | 1.41 | No |
| | Tar-Ni-CheA complex TnA = 0 M As per Signal 11 in 1SIG_B.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 28 | TnW | 0 | 1.41 | No |
| | Nickel bound Tar and CheW complex TnW = 0.0 uM As per Signal 8 in 1SIG_B.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 29 | TnWA | 0 | 1.41 | No |
| | Tar-Ni-CheW-CheA complex TnWA = 0 M As per Signal 15 in 1SIG.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 30 | TW | 1.88 | 1.41 | No |
| | Tar-CheW complex TW = 1.88e-06 M = 1.88 uM As per Signal entry 3 in 1SIG_B.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 31 | TWA | 0.212 | 1.41 | No |
| | Tar-CheW-CheA complex TWA = 2.12e-07 M = 2.12e-1 uM As per Signal entry 13 in 1SIG_B.BCT provided by Matthew Levin Cell volume = 1.41e-15 L Table 1 pp.474 Bray et al 1993, Mol.Biol.Cell 4: 469-482 |
| 32 | WA | 1.55 | 1.41 | No |
| | CheA and CheW complex formation Kf = 5*10e+04 /sec/M = 0.05 /sec/uM As per Reaction 4 in 1REACT.BCT provided by Matthew Levin Kf = 0.01 /sec/uM Kb = 1 /sec Bray et al 1993, Mol.Biol.Cell 4: 469-482 Table 3 pp.476 Reaction Scheme 5 |
