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Molecule Parameter List for Rec-Glu-Gq

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
Rec-Glu-Gq participated asMoleculeSum total ofEnzymeSubstrate of an enzymeProduct of an enzymeSubstrate in ReactionProduct in Reaction
No. of occurrences1000012

Accession and Pathway Details
Accession NameAccession No.Accession TypePathway Link
  • NonOsc_Ca_
    IP3metabolism
  • 23Network
    MIPP CaMKII CaM 
    PKC IP3-3K CaRegulation 
    Gq PLCbeta 134_dephos 
    145_dephos IP4-system IHP-system 
    1345_dephos 
    This network models detailed metabolism of Ins(145)P3, integrated with GPCR mediated PLCbeta activation and Ca release by the InsP3 receptor in the neuron. The calcium response is non-oscillatory. Mishra J, Bhalla US. Biophys J. 2002 Sep;83(3):1298-316.

    Rec-Glu-Gq acting as a Molecule in  
    NonOsc_Ca_IP3metabolism Network
    NameAccession NamePathway NameInitial Conc.
    (uM)
    Volume
    (fL)
    Buffered
    Rec-Glu-Gq
  • NonOsc_Ca_
    IP3metabolism

    Accession No. : 23
  • Gq
    Pathway No. : 111
    01000No
    This is the ternary complex of receptor, ligand and G protein.

    Rec-Glu-Gq acting as a Substrate in a reaction in  
    NonOsc_Ca_IP3metabolism 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.
    NameAccession NamePathway NameKfKbKdtauReagents
    Activate-Gq
  • NonOsc_Ca_
    IP3metabolism

    Accession No. : 23
  • Gq
    Pathway No. : 111
    0.01
    (s^-1)
    0
    (uM^-2 s^-1)
    --Substrate
    Rec-Glu-Gq

    Product
    BetaGamma
    G*GTP
    Rec-Glu
    This reaction is the critical one for activation of Gq. It probably encapsulates multiple steps. In this approximation the receptor-ligand- Gprotein complex splits up into GTP.Galpha, rec.ligand complex, and Gbetagamma. There is a hidden step of exchange of GDP for GTP. The reaction does not take these into account since it is assumed that both GTP and GDP levels are tightly regulated by metabolic control. This is the kcat==k3 stage of the Rec-Glu ezymatic activation of Gq. From Berstein et al actiation is at .35 - 0.7/min From Fay et al Biochem 30 5066-5075 1991 kf = .01/sec From Nakamura et al J physiol Lond 474:1 35-41 1994 see time courses. Also (Berstein) 15-40% of gprot is in GTP-bound form on stim.

    Rec-Glu-Gq acting as a Product in a reaction in  
    NonOsc_Ca_IP3metabolism 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.
     NameAccession NamePathway NameKfKbKdtauReagents
    1Rec-Glu-bind-Gq
  • NonOsc_Ca_
    IP3metabolism

    Accession No. : 23
  • Gq
    Pathway No. : 111
    0.006
    (uM^-1 s^-1)
    0.0001
    (s^-1)
    Kd(bf) = 0.0167(uM)-Substrate
    G-GDP
    Rec-Glu

    Product
    Rec-Glu-Gq
      This is the k1-k2 equivalent for enzyme complex formation in the binding of Rec-Glu to Gq. See Fay et al Biochem 30 5066-5075 1991. Closer reading of Fay et al suggests that kb <= 0.0001, so kf = 1e-8 by detailed balance. This reaction appears to be neglible.
    2Glu-bind-Rec-Gq
  • NonOsc_Ca_
    IP3metabolism

    Accession No. : 23
  • Gq
    Pathway No. : 111
    16.8
    (uM^-1 s^-1)
    0.1
    (s^-1)
    Kd(bf) = 0.006(uM)-Substrate
    Glu
    Rec-Gq

    Product
    Rec-Glu-Gq
      From Fay et al kb3 = kb = 1.06e-3 which is rather slow. k+1 = kf = 2.8e7 /M/sec= 4.67e-5/sec use 5e-5. However, the Kd from Martin et al may be more appropriate, as this is Glu not the system from Fay. kf = 2.8e-5, kb = 10 Let us compromise. since we have the Fay model, keep kf = k+1 = 2.8e-5. But kb (k-3) is .01 * k-1 from Fay. Scaling by .01, kb = .01 * 10 = 0.1



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