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Molecule Parameter List for PIP2

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

*PIP2* participated as	Molecule	Sum total of	Enzyme	Substrate of an enzyme	Product of an enzyme	Substrate in Reaction	Product in Reaction
No. of occurrences	1	0	0	4	0	0	0

Accession and Pathway Details

Accession Name	Accession No.	Accession Type	Pathway Link
Synaptic_ Network	16	Network	Shared_Object_Synaptic_Network, PKC, PLA2, PLCbeta, Gq, MAPK, Ras, EGFR, Sos, PLC_g, CaMKII, CaM, PP1, PP2B, PKA, AC, CaRegulation
This model is an annotated version of the synaptic signaling network. The primary reference is Bhalla US and Iyengar R. Science (1999) 283(5400):381-7 but several of the model pathways have been updated. Bhalla US Biophys J. 2002 Aug;83(2):740-52 Bhalla US J Comput Neurosci. 2002 Jul-Aug;13(1):49-62

PIP2 acting as a Molecule in Synaptic_Network Network

Name	Accession Name	Pathway Name	Initial Conc. (uM)	Volume (fL)	Buffered
PIP2	Synaptic_ Network Accession No. : 16	Shared_Object_ Synaptic_ Network Pathway No. : 70	10	1000	Yes
PIP2 is a bit troublesome in this model. Its level is well below what it should be based on more recent data. This value is kept in this model to correspond to the Km used in the enzymes. A scale factor of 5-10 in both terms would cancel out but improve the parameter estimate.

PIP2 acting as a Substrate for an Enzyme in Synaptic_Network Network

	Enzyme Molecule / Enzyme Activity	Accession Name	Pathway Name	Km (uM)	kcat (s^-1)	Ratio	Enzyme Type	Reagents
1	PLC-Ca / PLC-Ca	Synaptic_ Network Accession No. : 16	PLCbeta Pathway No. : 73	19.8413	10	4	explicit E-S complex	Substrate PIP2 Product DAG IP3
	From Sternweis et al Phil Trans R Soc Lond 1992, also matched by Homma et al. Km of 20 is higher than for the Gq bound form, but Vmax is about 1/3 of the Gq form.
2	PLC-Ca-Gq / PLCb-Ca-Gq	Synaptic_ Network Accession No. : 16	PLCbeta Pathway No. : 73	5	48	4	explicit E-S complex	Substrate PIP2 Product DAG IP3
	From Sternweis et al, Phil Trans R Soc Lond 1992, and the values from other refs eg Homma et al JBC 263(14) pp6592 1988 match. In this model I have rather low values for PIP2. The Km values are low to match. Sternweis mentions a 5 uM Km which is what I use here, but the Homma paper suggests about 20x higher Km, which would also fit with 20x higher PIP2. So that parameter, though it is off, cancels out and the overall rate would be the same. Vmax is about 23 umol/min/mg at high Ca from Sternweis or about 60/sec. This model value is a little lower than that.
3	Ca.PLC_g / PIP2_hydrolysis	Synaptic_ Network Accession No. : 16	PLC_g Pathway No. : 79	97.2222	14	4	Classical Michaelis-Menten V = Etot.S.Kcat/Km+S	Substrate PIP2 Product DAG IP3
	Wahl et al JBC 267(15) 10447-10456 1992. Homma et al JBC 263:14 1988 pp 6592. These parms are the Ca-stimulated form. This is close to Wahl's figure 7, which I am using as reference. Also see Nakanishi et al Biochem J 256 453-459 1998, Nishibe et al Science 250 :1253-1256 This model uses a rather low PIP2 of 10 uM.
4	Ca.PLC_g* / PIP2_hydrolysis	Synaptic_ Network Accession No. : 16	PLC_g Pathway No. : 79	19.7917	57	4	Classical Michaelis-Menten V = Etot.S.Kcat/Km+S	Substrate PIP2 Product DAG IP3
	Mainly Homma et al JBC 263:14 1988 pp 6592. These parms are the Ca-stimulated form. Wahl et al JBC 267:15 10447-10456 1992 say that the tyrosine phosphorylated form has 7X higher affinity for substrate than control. The PIP2 levels in this model are rather low, at 10 uM.

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