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Molecule Parameter List for cAMP | The statistics table lists the distribution of a molecule acting either as a substrate, product, enzyme or as a molecule within the network. The text color of a molecule is highlighted by color. | Statistics | Accession and Pathway Details | |
Accession Name | Accession No. | Accession Type | Pathway Link | MAPK_network_ 2003 | 50 | Network | Shared_Object_MAPK_network_2003, PKC, PLA2, PLCbeta, Gq, MAPK, Ras, EGFR, Sos, PLC_g, CaMKII, CaM, PP1, PP2B, PKA, AC | This is a network model of many pathways present at the neuronal synapse. The network has properties of temporal tuning as well as steady-state computational properties. In its default form the network is bistable.Bhalla US Biophys J. 2004 Aug;87(2):745-53 |
cAMP acting as a Molecule in MAPK_network_2003 Network
Name | Accession Name | Pathway Name | Initial Conc. (uM) | Volume (fL) | Buffered | cAMP | MAPK_network_ 2003 Accession No. : 50 | Shared_Object_ MAPK_network_ 2003 Pathway No. : 206 | 0 | 1000 | No | The conc of this has been a problem. Schaecter and Benowitz use 50 uM, but Shinomura et al have < 5. So I have altered the cAMP-dependent rates in the PKA model to reflect this. |
cAMP acting as a Substrate for an Enzyme in MAPK_network_2003 Network
| Enzyme Molecule / Enzyme Activity | Accession Name | Pathway Name | Km (uM) | kcat (s^-1) | Ratio | Enzyme Type | Reagents | 1 | cAMP-PDE / PDE | MAPK_network_ 2003 Accession No. : 50 | AC Pathway No. : 221 | 19.8413 | 10 | 4 | explicit E-S complex | Substrate cAMP
Product AMP
| | Best rates are from Conti et al Biochem 34 7979-7987 1995. Though these are for the Sertoli cell form, it looks like they carry nicely into alternatively spliced brain form. See Sette et al JBC 269:28 18271-18274 Km ~2 uM, Vmax est ~ 10 umol/min/mg for pure form. Brain protein is 93 kD but this was 67. So k3 ~10, k2 ~40, k1 ~4.2e-6 | 2 | cAMP-PDE* / PDE* | MAPK_network_ 2003 Accession No. : 50 | AC Pathway No. : 221 | 19.8413 | 20 | 4 | explicit E-S complex | Substrate cAMP
Product AMP
| | This form has about twice the activity of the unphosphorylated form. See Sette et al JBC 269:28 18271-18274 1994. We'll ignore cGMP effects for now. | 3 | PDE1 / PDE1 | MAPK_network_ 2003 Accession No. : 50 | AC Pathway No. : 221 | 39.7 | 1.667 | 4.0012 | explicit E-S complex | Substrate cAMP
Product AMP
| | Rate is 1/6 of the CaM stim form. We'll just reduce all lf k1, k2, k3 so that the Vmax goes down 1/6. | 4 | CaM.PDE1 / CaM.PDE1 | MAPK_network_ 2003 Accession No. : 50 | AC Pathway No. : 221 | 39.6825 | 10 | 4 | explicit E-S complex | Substrate cAMP
Product AMP
| | Max activity ~10umol/min/mg in presence of lots of CaM. Affinity is low, 40 uM. k3 = 10, k2 = 40, k1 = (50/40) / 6e5. |
cAMP acting as a Product of an Enzyme in MAPK_network_2003 Network
| Enzyme Molecule / Enzyme Activity | Accession Name | Pathway Name | Km (uM) | kcat (s^-1) | Ratio | Enzyme Type | Reagents | 1 | AC1-CaM / kenz | MAPK_network_ 2003 Accession No. : 50 | AC Pathway No. : 221 | 20 | 18 | 4 | Classical Michaelis-Menten V = Etot.S.Kcat/Km+S | Substrate ATP
Product cAMP
| 2 | AC2* / kenz | MAPK_network_ 2003 Accession No. : 50 | AC Pathway No. : 221 | 20.1149 | 7 | 4 | Classical Michaelis-Menten V = Etot.S.Kcat/Km+S | Substrate ATP
Product cAMP
| | Reduced Km to match expt data for basal activation of AC2 by PKC. Now k1 = 2.9e-6, k2 = 72, k3 = 18 | 3 | AC2-Gs / kenz | MAPK_network_ 2003 Accession No. : 50 | AC Pathway No. : 221 | 20 | 18 | 4 | Classical Michaelis-Menten V = Etot.S.Kcat/Km+S | Substrate ATP
Product cAMP
| 4 | AC1-Gs / kenz | MAPK_network_ 2003 Accession No. : 50 | AC Pathway No. : 221 | 20 | 18 | 4 | Classical Michaelis-Menten V = Etot.S.Kcat/Km+S | Substrate ATP
Product cAMP
| 5 | AC2*-Gs / kenz | MAPK_network_ 2003 Accession No. : 50 | AC Pathway No. : 221 | 60 | 54 | 4 | Classical Michaelis-Menten V = Etot.S.Kcat/Km+S | Substrate ATP
Product cAMP
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cAMP acting as a Substrate in a reaction in MAPK_network_2003 Network
Kd is calculated only for second order reactions, like nA+nB <->nC or nA<->nC+nD, where n is number and A,B,C,D are molecules, where as for first order reactions Keq is calculated.
Kd for higher order reaction are not consider. |
| Name | Accession Name | Pathway Name | Kf | Kb | Kd | tau | Reagents | 1 | cAMP-bind-site-B 1 | MAPK_network_ 2003 Accession No. : 50 | PKA Pathway No. : 220 | 54 (uM^-1 s^-1) | 33 (s^-1) | Kd(bf) = 0.6111(uM) | - | Substrate R2C2 cAMP
Product R2C2-cAMP
| | Hasler et al FASEB J 6:2734-2741 1992 say Kd =1e-7M for type II, 5.6e-8 M for type I. Take mean which comes to 2e-13 #/cell Smith et al PNAS USA 78:3 1591-1595 1981 have better data. First kf/kb=2.1e7/M = 3.5e-5 (#/cell). Ogreid and Doskeland Febs Lett 129:2 287-292 1981 have figs suggesting time course of complete assoc is < 1 min. | 2 | cAMP-bind-site-B 2 | MAPK_network_ 2003 Accession No. : 50 | PKA Pathway No. : 220 | 54 (uM^-1 s^-1) | 33 (s^-1) | Kd(bf) = 0.6111(uM) | - | Substrate R2C2-cAMP cAMP
Product R2C2-cAMP2
| | For now let us set this to the same Km (1e-7M) as site B. This gives kf/kb = .7e-7M * 1e6 / (6e5^2) : 1/(6e5^2) = 2e-13:2.77e-12 Smith et al have better values. They say that this is cooperative, so the consts are now kf/kb =8.3e-4 | 3 | cAMP-bind-site-A 1 | MAPK_network_ 2003 Accession No. : 50 | PKA Pathway No. : 220 | 75 (uM^-1 s^-1) | 110 (s^-1) | Kd(bf) = 1.4667(uM) | - | Substrate R2C2-cAMP2 cAMP
Product R2C2-cAMP3
| 4 | cAMP-bind-site-A 2 | MAPK_network_ 2003 Accession No. : 50 | PKA Pathway No. : 220 | 75 (uM^-1 s^-1) | 32.5 (s^-1) | Kd(bf) = 0.4333(uM) | - | Substrate R2C2-cAMP3 cAMP
Product R2C2-cAMP4
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