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Molecule List for pathway CaMKII (Pathway Number 235) in Accession AMPAR_traff_model0 (Accession Number 59) |
Default ordering is done according to Pathway Number. Table headers can be used for changing the default ordering.  arrow indicates that ordering is done according to ascending or descending order.The entries are grouped according to Pathway Number and are alternately color coded using  and  color. |
| Name | Accession Type | Initial Conc. (uM) | Volume (fL) | Buffered | Sum Total Of | |||
| 1 | tot_CaM_CaMKII | Network | 0 | 0.09 | No | CaMKII-CaM aM | ||
| 2 | tot_CaMKII_PSD | Network | 2 | 0.01 | No | actCaMKII-PSD CaMKII-PSD D | ||
| 3 | tot_CaMKII_cyt | Network | 22 | 0.09 | No | CaMKII-CaM aM CaMKII-thr286 CaMKII*** CaMK-thr305 CaMKII cyt | ||
| 4 | CaMKII | Network | 2 | 0.09 | No | CaMKII-thr286 CaMKII*** cyt | ||
| 5 | SD | Network | 0 | 0.01 | No | M-PSD CaMKII-CaM-PSD | ||
| 6 | tot-auto-PSD | Network | 2 | 0.01 | No | D CaMKII***-PSD PSD | ||
| 7 | NMDAR | Network | 120 | 0.01 | No | - | ||
| The stochiometry is a bit off here. Each NMDAR actually binds to a holoenzyme, about 12 CaMKII subunits. But our CaMKII calculations are in terms of individual subunits. So as a hack, we put in much more NMDAR than is actually there. | ||||||||
| 8 | D | Network | 0 | 0.01 | No | - | ||
| 9 | D | Network | 0 | 0.01 | No | - | ||
| 10 | M-PSD | Network | 0 | 0.01 | No | - | ||
| 11 | aM | Network | 0 | 0.09 | No | - | ||
| From Hanson and Schulman, the thr286 is responsible for autonomous activation of CaMKII. | ||||||||
| 12 | CaMKII-thr286 | Network | 0 | 0.09 | No | - | ||
| I am not sure if we need to endow this one with a lot of enzs. It is likely to be a short-lived intermediate, since it will be phosphorylated further as soon as the CAM falls off. | ||||||||
| 13 | CaMKII-PSD | Network | 0 | 0.01 | No | - | ||
| 14 | CaMKII-CaM-PSD | Network | 0 | 0.01 | No | - | ||
| 15 | CaMKII-CaM | Network | 0 | 0.09 | No | - | ||
| 16 | CaMKII***-PSD | Network | 0 | 0.01 | No | - | ||
| 17 | CaMKII*** | Network | 0 | 0.09 | No | - | ||
| From Hanson and Schulman, the CaMKII does a lot of autophosphorylation just after the CaM is released. This prevents further CaM binding and renders the enzyme quite independent of Ca. | ||||||||
| 18 | CaMKII | Network | 20 | 0.09 | No | - | ||
| Huge conc of CaMKII. In PSD it is 20-40% of protein, so we assume it is around 2.5% of protein in spine as a whole. This level is so high it is unlikely to matter much if we are off a bit. This comes to about 70 uM. | ||||||||
| 19 | CaMK-thr305 | Network | 0 | 0.09 | No | - | ||
| This forms due to basal autophosphorylation, but I think it has to be considered as a pathway even if some CaM is floating around. In either case it will tend to block further binding of CaM, and will not display any enzyme activity. See Hanson and Schulman JBC 267:24 pp17216-17224 1992 | ||||||||
| 20 | PSD_control | Network | 2 | 0.01 | Yes | - | ||