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Pathway Name Pathway No. | Accession Name Accession No. | Accession Type | Pathway statistics | camkii statistics | Source Entry Date |
1 | CaMKII Pathway No. 322 | Ajay_Bhalla_ 2004_PKM_Tuning Accession No. 76 | Network | Molecule = 8 Enzyme = 4 Reaction = 3
| Molecule = 1 Enzyme = 0 Reaction = 0
| Ajay SM, Bhalla US. Eur J Neurosci. 2004 Nov;20(10):2671-80. ( Peer-reviewed publication )/ 2006-12-12 00:00:00 |
| #19Related Pathway: 13, 26, 80, 106, 121, 145, 159, 174, 202, 216, 235, 245, 258, 264, 272, 282, 339, 357 |
| Main reference here is the review by Hanson and Schulman, Ann Rev Biochem 1992 vol 61 pp 559-601. Most of the mechanistic details and a few constants are derived from there. Many kinetics are from Hanson and Schulman JBC 267:24 17216-17224 1992. The enzs look a terrible mess. Actually it is just 3 reactions for diff sites, by 4 states of CaMKII, defined by the phosph state. |
| This pathway is part of accession 76 and is completely specified in the file acc76.g. There is no separate files for just this pathway. |
|
2 | CaMKII Pathway No. 339 | Ajay_Bhalla_ 2004_PKM_MKP3_ Tuning Accession No. 77 | Network | Molecule = 8 Enzyme = 4 Reaction = 3
| Molecule = 1 Enzyme = 0 Reaction = 0
| Ajay SM, Bhalla US. Eur J Neurosci. 2004 Nov;20(10):2671-80 ( Peer-reviewed publication )/ 2006-12-12 00:00:00 |
| #19Related Pathway: 13, 26, 80, 106, 121, 145, 159, 174, 202, 216, 235, 245, 258, 264, 272, 282, 322, 357 |
| Main reference here is the review by Hanson and Schulman, Ann Rev Biochem 1992 vol 61 pp 559-601. Most of the mechanistic details and a few constants are derived from there. Many kinetics are from Hanson and Schulman JBC 267:24 17216-17224 1992. The enzs look a terrible mess. Actually it is just 3 reactions for diff sites, by 4 states of CaMKII, defined by the phosph state. |
| This pathway is part of accession 77 and is completely specified in the file acc77.g. There is no separate files for just this pathway. |
|
3 | CaMKII Pathway No. 357 | Ajay_Bhalla_ 2004_Feedback_ Tuning Accession No. 78 | Network | Molecule = 8 Enzyme = 4 Reaction = 3
| Molecule = 1 Enzyme = 0 Reaction = 0
| Ajay SM, Bhalla US. Eur J Neurosci. 2004 Nov;20(10):2671-80. ( Peer-reviewed publication )/ 2006-12-12 00:00:00 |
| #19Related Pathway: 13, 26, 80, 106, 121, 145, 159, 174, 202, 216, 235, 245, 258, 264, 272, 282, 322, 339 |
| Main reference here is the review by Hanson and Schulman, Ann Rev Biochem 1992 vol 61 pp 559-601. Most of the mechanistic details and a few constants are derived from there. Many kinetics are from Hanson and Schulman JBC 267:24 17216-17224 1992. The enzs look a terrible mess. Actually it is just 3 reactions for diff sites, by 4 states of CaMKII, defined by the phosph state. |
| This pathway is part of accession 78 and is completely specified in the file acc78.g. There is no separate files for just this pathway. |
|
4 | CaMKII Pathway No. 282 | AMPAR_CaMKII_ weak_coupling Accession No. 65 | Network | Molecule = 11 Enzyme = 4 Reaction = 2
| Molecule = 1 Enzyme = 0 Reaction = 0
| Hayer A, Bhalla US PLoS Comput Biol. 2005 Jul;1(2):137-54. Epub 2005 Jul 29. ( Peer-reviewed publication )/ 2005-07-21 00:00:00 |
| #19Related Pathway: 13, 26, 80, 106, 121, 145, 159, 174, 202, 216, 235, 245, 258, 264, 272, 322, 339, 357 |
| Main reference here is the review by Hanson and Schulman, Ann Rev Biochem 1992 vol 61 pp 559-601. Most of the mechanistic details and a few constants are derived from there. Many kinetics are from Hanson and Schulman JBC 267:24 17216-17224 1992. The enzs look a terrible mess. Actually it is just 3 reactions for diff sites, by 4 states of CaMKII, defined by the phosph state. |
| This pathway is part of accession 65 and is completely specified in the file acc65.g. There is no separate files for just this pathway. |
|
5 | CaMKII Pathway No. 235 | AMPAR_traff_ model0 Accession No. 59 | Network | Molecule = 25 Enzyme = 24 Reaction = 10
| Molecule = 1 Enzyme = 1 Reaction = 0
| Hayer A, Bhalla US PLoS Comput Biol. 2005 Jul;1(2):137-54. Epub 2005 Jul 29. ( Peer-reviewed publication )/ 2005-07-19 00:00:00 |
| #19Related Pathway: 13, 26, 80, 106, 121, 145, 159, 174, 202, 216, 245, 258, 264, 272, 282, 322, 339, 357 |
| Main reference here is the review by Hanson and Schulman, Ann Rev Biochem 1992 vol 61 pp 559-601. Most of the mechanistic details and a few constants are derived from there. Many kinetics are from Hanson and Schulman JBC 267:24 17216-17224 1992. The enzs look a terrible mess. Actually it is just 3 reactions for diff sites, by 4 states of CaMKII, defined by the phosph state. |
| This pathway is part of accession 59 and is completely specified in the file acc59.g. There is no separate files for just this pathway. |
|
6 | CaMKII Pathway No. 245 | AMPAR_traff_ model1 Accession No. 60 | Network | Molecule = 25 Enzyme = 24 Reaction = 10
| Molecule = 1 Enzyme = 1 Reaction = 0
| Hayer A, Bhalla US PLoS Comput Biol. 2005 Jul;1(2):137-54. Epub 2005 Jul 29. ( Peer-reviewed publication )/ 2005-07-19 00:00:00 |
| #19Related Pathway: 13, 26, 80, 106, 121, 145, 159, 174, 202, 216, 235, 258, 264, 272, 282, 322, 339, 357 |
| Main reference here is the review by Hanson and Schulman, Ann Rev Biochem 1992 vol 61 pp 559-601. Most of the mechanistic details and a few constants are derived from there. Many kinetics are from Hanson and Schulman JBC 267:24 17216-17224 1992. The enzs look a terrible mess. Actually it is just 3 reactions for diff sites, by 4 states of CaMKII, defined by the phosph state. |
| This pathway is part of accession 60 and is completely specified in the file acc60.g. There is no separate files for just this pathway. |
|
7 | CaMKII Pathway No. 258 | CaMKII_noPKA_ model3 Accession No. 62 | Network | Molecule = 8 Enzyme = 4 Reaction = 2
| Molecule = 1 Enzyme = 0 Reaction = 0
| Hayer A, Bhalla US PLoS PLoS Comput Biol. 2005 Jul;1(2):137-54. Epub 2005 Jul 29. ( Peer-reviewed publication )/ 2005-07-19 00:00:00 |
| #19Related Pathway: 13, 26, 80, 106, 121, 145, 159, 174, 202, 216, 235, 245, 264, 272, 282, 322, 339, 357 |
| Main reference here is the review by Hanson and Schulman, Ann Rev Biochem 1992 vol 61 pp 559-601. Most of the mechanistic details and a few constants are derived from there. Many kinetics are from Hanson and Schulman JBC 267:24 17216-17224 1992. The enzs look a terrible mess. Actually it is just 3 reactions for diff sites, by 4 states of CaMKII, defined by the phosph state. |
| This pathway is part of accession 62 and is completely specified in the file acc62.g. There is no separate files for just this pathway. |
|
8 | CaMKII Pathway No. 264 | CaMKII_model3
Accession No. 63 | Network | Molecule = 8 Enzyme = 4 Reaction = 2
| Molecule = 1 Enzyme = 0 Reaction = 0
| Hayer A, Bhalla US PLoS Comput Biol. 2005 Jul;1(2):137-54. Epub 2005 Jul 29. ( Peer-reviewed publication )/ 2005-07-19 00:00:00 |
| #19Related Pathway: 13, 26, 80, 106, 121, 145, 159, 174, 202, 216, 235, 245, 258, 272, 282, 322, 339, 357 |
| Main reference here is the review by Hanson and Schulman, Ann Rev Biochem 1992 vol 61 pp 559-601. Most of the mechanistic details and a few constants are derived from there. Many kinetics are from Hanson and Schulman JBC 267:24 17216-17224 1992. The enzs look a terrible mess. Actually it is just 3 reactions for diff sites, by 4 states of CaMKII, defined by the phosph state. |
| This pathway is part of accession 63 and is completely specified in the file acc63.g. There is no separate files for just this pathway. |
|
9 | CaMKII Pathway No. 272 | AMPAR_CaMKII_ strong_coupling Accession No. 64 | Network | Molecule = 8 Enzyme = 4 Reaction = 2
| Molecule = 1 Enzyme = 0 Reaction = 0
| Hayer A, Bhalla US PLoS Comput Biol. 2005 Jul;1(2):137-54. Epub 2005 Jul 29. ( Peer-reviewed publication )/ 2005-07-19 00:00:00 |
| #19Related Pathway: 13, 26, 80, 106, 121, 145, 159, 174, 202, 216, 235, 245, 258, 264, 282, 322, 339, 357 |
| Main reference here is the review by Hanson and Schulman, Ann Rev Biochem 1992 vol 61 pp 559-601. Most of the mechanistic details and a few constants are derived from there. Many kinetics are from Hanson and Schulman JBC 267:24 17216-17224 1992. The enzs look a terrible mess. Actually it is just 3 reactions for diff sites, by 4 states of CaMKII, defined by the phosph state. |
| This pathway is part of accession 64 and is completely specified in the file acc64.g. There is no separate files for just this pathway. |
|
10 | CaMKII Pathway No. 202 | CaMKII_2003
Accession No. 49 | Network | Molecule = 8 Enzyme = 4 Reaction = 3
| Molecule = 1 Enzyme = 0 Reaction = 0
| Bhalla US. Biophys J. 2004 Aug;87(2):733-44. ( peer-reviewed publication )./ 2003-04-28 00:00:00 |
| #19Related Pathway: 13, 26, 80, 106, 121, 145, 159, 174, 216, 235, 245, 258, 264, 272, 282, 322, 339, 357 |
| Main reference here is the review by Hanson and Schulman, Ann Rev Biochem 1992 vol 61 pp 559-601. Most of the mechanistic details and a few constants are derived from there. Many kinetics are from Hanson and Schulman JBC 267:24 17216-17224 1992. The enzs look a terrible mess. Actually it is just 3 reactions for diff sites, by 4 states of CaMKII, defined by the phosph state. |
| This pathway is part of accession 49 and is completely specified in the file acc49.g. There is no separate files for just this pathway. |
|
11 | CaMKII Pathway No. 216 | MAPK_network_ 2003 Accession No. 50 | Network | Molecule = 8 Enzyme = 4 Reaction = 3
| Molecule = 1 Enzyme = 0 Reaction = 0
| Bhalla US Biophys J. 2004 Aug;87(2):745-53. ( peer-reviewed publication )/ 2003-04-28 00:00:00 |
| #19Related Pathway: 13, 26, 80, 106, 121, 145, 159, 174, 202, 235, 245, 258, 264, 272, 282, 322, 339, 357 |
| Main reference here is the review by Hanson and Schulman, Ann Rev Biochem 1992 vol 61 pp 559-601. Most of the mechanistic details and a few constants are derived from there. Many kinetics are from Hanson and Schulman JBC 267:24 17216-17224 1992. The enzs look a terrible mess. Actually it is just 3 reactions for diff sites, by 4 states of CaMKII, defined by the phosph state. |
| |
12 | CaMKII Pathway No. 174 | CaMKII
Accession No. 33 | Network | Molecule = 11 Enzyme = 2 Reaction = 14
| Molecule = 1 Enzyme = 0 Reaction = 0
| William R. Holmes J Comput Neurosci. (2000) 8(1):65-85 ( peer-reviewed publication )/ 2002-08-21 00:00:00 |
| #19Related Pathway: 13, 26, 80, 106, 121, 145, 159, 202, 216, 235, 245, 258, 264, 272, 282, 322, 339, 357 |
| This is a deterministic, point kinetics approximation to the dendritic spine CaMKII model described in William R. Holmes J Comput Neurosci. (2000) 8(1):65-85. Rates are the same but the responses differ somewhat because this model does not include the stochastic and diffusive calculations of the original. |
| |
13 | CaMKII Pathway No. 145 | NonOsc_Ca_ IP3metabolism Accession No. 31 | Network | Molecule = 10 Enzyme = 13 Reaction = 3
| Molecule = 1 Enzyme = 0 Reaction = 0
| Mishra J, Bhalla US. Biophys J. 2002 Sep;83(3):1298-316. ( peer-reviewed publication )/ 2002-04-03 00:00:00 |
| #19Related Pathway: 13, 26, 80, 106, 121, 159, 174, 202, 216, 235, 245, 258, 264, 272, 282, 322, 339, 357 |
| Main reference here is the review by Hanson and Schulman, Ann Rev Biochem 1992 vol 61 pp 559-601. Most of the mechanistic details and a few constants are derived from there. Many kinetics are from Hanson and Schulman JBC 267:24 17216-17224 1992. The enzymes look a bit complicated. Actually it is just 3 reactions for different sites, by 4 states of CaMKII, defined by the phosphorylation state. This model approximates the fact that the enzyme is actually present as a decamer/dodecamer. It does so by treating the autophosphorylation reactions as being independent of the concentration of CaMKII. Also the rates for the autophosphorylation steps have been scaled to fit this approximation. |
| This pathway is part of accession 31 and is completely specified in the file acc31.g. There is no separate files for just this pathway. |
Format | File | Native Format (GENESIS format) | acc31.g | GENESIS Format (Annotated version) | Anno_acc31.g |
|
14 | CaMKII Pathway No. 159 | Osc_Ca_ IP3metabolism Accession No. 32 | Network | Molecule = 10 Enzyme = 13 Reaction = 3
| Molecule = 1 Enzyme = 0 Reaction = 0
| Mishra J, Bhalla US. Biophys J. 2002 Sep;83(3):1298-316. ( peer-reviewed publication )/ 2002-04-03 00:00:00 |
| #19Related Pathway: 13, 26, 80, 106, 121, 145, 174, 202, 216, 235, 245, 258, 264, 272, 282, 322, 339, 357 |
| Main reference here is the review by Hanson and Schulman, Ann Rev Biochem 1992 vol 61 pp 559-601. Most of the mechanistic details and a few constants are derived from there. Many kinetics are from Hanson and Schulman JBC 267:24 17216-17224 1992. The enzymes look a bit complicated. Actually it is just 3 reactions for different sites, by 4 states of CaMKII, defined by the phosphorylation state. This model approximates the fact that the enzyme is actually present as a decamer/dodecamer. It does so by treating the autophosphorylation reactions as being independent of the concentration of CaMKII. Also the rates for the autophosphorylation steps have been scaled to fit this approximation. |
| This pathway is part of accession 32 and is completely specified in the file acc32.g. There is no separate files for just this pathway. |
Format | File | Native Format (GENESIS format) | acc32.g | GENESIS Format (Annotated version) | Anno_acc32.g |
|
15 | CaMKII Pathway No. 121 | Osc_Ca_ IP3metabolism Accession No. 24 | Network | Molecule = 10 Enzyme = 13 Reaction = 3
| Molecule = 1 Enzyme = 0 Reaction = 0
| Mishra J, Bhalla US. Biophys J. 2002 Sep;83(3):1298-316. ( peer-reviewed publication )/ 2002-01-08 00:00:00 |
| #19Related Pathway: 13, 26, 80, 106, 145, 159, 174, 202, 216, 235, 245, 258, 264, 272, 282, 322, 339, 357 |
| Main reference here is the review by Hanson and Schulman, Ann Rev Biochem 1992 vol 61 pp 559-601. Most of the mechanistic details and a few constants are derived from there. Many kinetics are from Hanson and Schulman JBC 267:24 17216-17224 1992. The enzymes look a bit complicated. Actually it is just 3 reactions for different sites, by 4 states of CaMKII, defined by the phosphorylation state. This model approximates the fact that the enzyme is actually present as a decamer/dodecamer. It does so by treating the autophosphorylation reactions as being independent of the concentration of CaMKII. Also the rates for the autophosphorylation steps have been scaled to fit this approximation. |
| This pathway is part of accession 24 and is completely specified in the file acc24.g. There is no separate files for just this pathway. |
Format | File | Native Format (GENESIS format) | acc24.g | GENESIS Format (Annotated version) | Anno_acc24.g |
|
16 | CaMKII Pathway No. 106 | NonOsc_Ca_ IP3metabolism Accession No. 23 | Network | Molecule = 10 Enzyme = 13 Reaction = 3
| Molecule = 1 Enzyme = 0 Reaction = 0
| Mishra J, Bhalla US. Biophys J. 2002 Sep;83(3):1298-316. ( peer-reviewed publication )/ 2002-01-07 00:00:00 |
| #19Related Pathway: 13, 26, 80, 121, 145, 159, 174, 202, 216, 235, 245, 258, 264, 272, 282, 322, 339, 357 |
| Main reference here is the review by Hanson PI, Schulman H. Annu Rev Biochem. 1992;61:559-601. Most of the mechanistic details and a few constants are derived from there. Many kinetics are from Hanson PI, Schulman H. J Biol Chem. 1992 Aug 25;267(24):17216-24. The enzymes look a bit complicated. Actually it is just 3 reactions for different sites, by 4 states of CaMKII, defined by the phosphorylation state. This model approximates the fact that the enzyme is actually present as a decamer/dodecamer. It does so by treating the autophosphorylation reactions as being independent of the concentration of CaMKII. Also the rates for the autophosphorylation steps have been scaled to fit this approximation. |
| This pathway is part of accession 23 and is completely specified in the file acc23.g. There is no separate files for just this pathway. |
Format | File | Native Format (GENESIS format) | acc23.g | GENESIS Format (Annotated version) | Anno_acc23.g |
|
17 | CaMKII Pathway No. 80 | Synaptic_ Network Accession No. 16 | Network | Molecule = 9 Enzyme = 4 Reaction = 3
| Molecule = 1 Enzyme = 0 Reaction = 0
| Bhalla US and Iyengar R. Science (1999) 283(5400):381-7. ( peer-reviewed publication )/ 2001-12-12 00:00:00 |
| #19Related Pathway: 13, 26, 106, 121, 145, 159, 174, 202, 216, 235, 245, 258, 264, 272, 282, 322, 339, 357 |
| Main reference here is the review by Hanson and Schulman, Ann Rev Biochem 1992 vol 61 pp 559-601. Most of the mechanistic details and a few constants are derived from there. Many kinetics are from Hanson and Schulman JBC 267:24 17216-17224 1992. The enzymes look a bit complicated. Actually it is just 3 reactions for different sites, by 4 states of CaMKII, defined by the phosphorylation state. This model approximates the fact that the enzyme is actually present as a decamer/dodecamer. It does so by treating the autophosphorylation reactions as being independent of the concentration of CaMKII. Also the rates for the autophosphorylation steps have been scaled to fit this approximation. |
| This pathway is part of accession 16 and is completely specified in the file acc16.g. There is no separate files for just this pathway. |
Format | File | Native Format (GENESIS format) | acc16.g | GENESIS Format (Annotated version) | Anno_acc16.g |
|
18 | CaMKII Pathway No. 13 | fig3_CaMKII
Accession No. 2 | Network | Molecule = 9 Enzyme = 4 Reaction = 3
| Molecule = 1 Enzyme = 0 Reaction = 0
| Bhalla US and Iyengar R. Science (1999) 283(5400):381-7. ( peer-reviewed publication )/ 2001-11-07 00:00:00 |
| #19Related Pathway: 26, 80, 106, 121, 145, 159, 174, 202, 216, 235, 245, 258, 264, 272, 282, 322, 339, 357 |
| This is the model file for figure 3 from Bhalla US and Iyengar R. Science (1999) 283(5400):381-7. It is a model of the Ca activation of CaMKII and other CaM-activated enzymes. It includes the regulatory phosphatases PP1 and PP2B (Calcineurin) acting on CaMKII and also includes CaM-activated adenylyl cyclase and PKA in the synapse. Demonstration script files for generating the figures in the paper, including figure 3, are available here. |
| This pathway is part of accession 2 and is completely specified in the file acc2.g. There is no separate files for just this pathway. |
Format | File | Native Format (GENESIS format) | acc2.g | GENESIS Format (Annotated version) | Anno_acc2.g |
|
19 | CaMKII Pathway No. 26 | fig4_synapse
Accession No. 3 | Network | Molecule = 9 Enzyme = 4 Reaction = 3
| Molecule = 1 Enzyme = 0 Reaction = 0
| Bhalla US and Iyengar R. Science (1999) 283(5400):381-7. ( peer-reviewed publication )/ 2001-11-07 00:00:00 |
| #19Related Pathway: 13, 80, 106, 121, 145, 159, 174, 202, 216, 235, 245, 258, 264, 272, 282, 322, 339, 357 |
| This is the composite model of 4 kinases: PKC, MAPK, PKA and CaMKII and numerous regulatory pathways involved in synaptic signaling. From Bhalla US and Iyengar R. Science (1999) 283(5400):381-7.This model comes from figure 4 of that paper. Demonstration script files for generating the figures in the paper, including figure 4, are available here. |
| This pathway is part of accession 3 and is completely specified in the file acc3.g. There is no separate files for just this pathway. |
Format | File | Native Format (GENESIS format) | acc3.g | GENESIS Format (Annotated version) | Anno_acc3.g |
|