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Molecule Parameter List for CaM

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
CaM participated asMoleculeSum total ofEnzymeSubstrate of an enzymeProduct of an enzymeSubstrate in ReactionProduct in Reaction
No. of occurrences2500004924

Accession and Pathway Details
Accession NameAccession No.Accession TypePathway Link
  • Ajay_Bhalla_
    2007_ReacDiff3
  • 84NetworkShared_Object_Ajay_Bhalla_2007_ReacDiff3 PKC PLA2 
    MAPK PLA2 Ras CaM chain kinetics PKC MAPK Ras CaM kinetics[1] 
    PKC PLA2 MAPK Ras CaM kinetics[2] PKC PLA2 MAPK Ras CaM kinetics[3] 
    PKC PLA2 MAPK Ras CaM kinetics[4] PKC PLA2 MAPK Ras CaM kinetics[5] 
    PKC PLA2 MAPK Ras MAPK CaM kinetics[6] PKC PLA2 MAPK Ras 
    CaM kinetics[7] PKC PLA2 MAPK Ras CaM PKC kinetics[8] PLA2 
    MAPK Ras CaM kinetics[9] PKC PLA2 MAPK Ras CaM kinetics[10] 
    PKC PLA2 MAPK Ras CaM kinetics[11] PKC PLA2 MAPK Ras CaM 
    kinetics[12] PKC PLA2 Ras CaM kinetics[13] PKC PLA2 MAPK 
    Ras CaM kinetics[14] PKC PLA2 MAPK Ras CaM kinetics[15] 
    PKC PLA2 MAPK Ras kinetics[16] CaM PKC PLA2 MAPK Ras CaM 
    kinetics[17] PKC PLA2 MAPK Ras CaM kinetics[18] PKC PLA2 
    MAPK Ras CaM kinetics[19] PKC PLA2 MAPK Ras CaM kinetics[20] 
    PKC PLA2 MAPK Ras CaM kinetics[21] PKC PLA2 MAPK Ras CaM 
    kinetics[22] PKC PLA2 MAPK Ras CaM kinetics[23] PKC PLA2 
    MAPK Ras CaM 
    This is a 25-compartment reaction-diffusion version of the Ajay_Bhalla_2007_bistable model. The original single-compartment model is repeated 25 times.
    In addition, a subset (33 out of 50) molecules can diffuse between compartments. Diffusion is implemented as a reaction between corresponding molecules in neighboring compartments. Here D = 1e-13 m^2/sec (i.e., 0.1 micron^2/sec ) so the kf and kb of this reaction for these 10 micron compartments are both 0.001/sec.
    The basal calcium level in this model is held at 95 nM which is rather close to threshold for the flip to the active state. This is necessary to sustain active propagation of activation.
    The stimulus file bis6-propgn_D1e-13_FigEF which was used for the model to replicate Figure 4E and 4F from the paper.

    CaM acting as a Molecule in  
    Ajay_Bhalla_2007_ReacDiff3 Network
    NameAccession NamePathway NameInitial Conc.
    (uM)
    Volume
    (fL)
    Buffered
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 924
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 930
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 936
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 942
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 948
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 954
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 961
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 967
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 973
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 979
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 985
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 991
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 997
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1002
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1008
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1014
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1021
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1026
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1032
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1038
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1044
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1050
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1056
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1062
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.
    CaM
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1068
    19.9997125.7No
    There is a LOT of this in the cell: upto 1% of total protein mass. (Alberts et al) Say 25 uM. Meyer et al Science 256 1199-1202 1992 refer to studies saying it is comparable to CaMK levels.

    CaM acting as a Substrate in a reaction in  
    Ajay_Bhalla_2007_ReacDiff3 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
    1diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    2CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 924
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    3diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    4CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 930
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    5diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    6CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 936
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    7diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    8CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 942
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    9diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    10CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 948
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    11diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    12CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 954
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    13diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    14CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 961
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    15diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    16CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 967
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    17diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    18CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 973
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    19diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    20CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 979
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    21diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    22CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 985
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    23diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    24CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 991
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    25diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    26CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 997
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    27diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    28CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1002
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    29diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    30CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1008
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    31diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    32CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1014
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    33diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    34CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1021
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    35diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    36CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1026
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    37diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    38CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1032
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    39diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    40CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1038
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    41diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    42CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1044
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    43diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    44CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1050
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    45diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    46CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1056
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    47diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    48CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1062
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....
    49CaM-TR2-bind-Ca
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • CaM
    Pathway No. : 1068
    72.0006
    (uM^-2 s^-1)
    72
    (s^-1)
    Kd(af) = 1(uM)-Substrate
    Ca
    Ca
    CaM

    Product
    CaM-TR2-Ca2
      Lets use the fast rate consts here. Since the rates are so different, I am not sure whether the order is relevant. These correspond to the TR2C fragment. We use the Martin et al rates here, plus the Drabicowski binding consts. All are scaled by 3X to cell temp. kf = 2e-10 kb = 72 Stemmer & Klee: K1=.9, K2=1.1. Assume 1.0uM for both. kb/kf=3.6e11. If kb=72, kf = 2e-10 (Exactly the same !)....

    CaM acting as a Product in a reaction in  
    Ajay_Bhalla_2007_ReacDiff3 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
    1diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    2diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    3diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    4diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    5diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    6diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    7diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    8diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    9diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    10diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    11diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    12diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    13diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    14diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    15diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    16diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    17diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    18diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    19diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    20diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    21diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    22diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    23diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM
    24diff
  • Ajay_Bhalla_
    2007_ReacDiff3

    Accession No. : 84
  • Shared_Object_
    Ajay_Bhalla_
    2007_ReacDiff3

    Pathway No. : 918
  • 0.001
    (s^-1)
    0.001
    (s^-1)
    Keq = 1(uM)500secSubstrate
    CaM

    Product
    CaM



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