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Molecule Parameter List for STAT1c

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
STAT1c participated asMoleculeSum total ofEnzymeSubstrate of an enzymeProduct of an enzymeSubstrate in ReactionProduct in Reaction
No. of occurrences1000035

Accession and Pathway Details
Accession NameAccession No.Accession TypePathway Link
  • Jak-Stat_
    Pathway
  • 66Pathway
    Jak-Stat_Pathway 
    This model was taken from the Yamada S et al. FEBS Letters 2003 Jan 16;534(1-3):190-6
    This model shows the control mechanism of Jak-Stat pathway, here SOCS1 (Suppressor of cytokine signaling-I) was identified as the negative regulator of Jak and STAT signal transduction pathway.
    Note: There are a few ambiguities in the paper like initial concentration of IFN and some reactions were missing in the paper that were employed for obtaining the results. The graphs are almost similar to the graphs as shown in the paper but still some ambiguities regarding the concentration are there. Thanks to Dr Satoshi Yamada for clarifying some of those ambiguities and providing the values used in the simulations.

    STAT1c acting as a Molecule in  
    Jak-Stat_Pathway Network
    NameAccession NamePathway NameInitial Conc.
    (uM)
    Volume
    (fL)
    Buffered
    STAT1c
  • Jak-Stat_
    Pathway

    Accession No. : 66
  • Jak-Stat_
    Pathway

    Pathway No. : 293
  • 10.0016667No
    STAT: Signal Transducer and Activator of Transcription STAT1c binds to IFNRJ2* and is phosphorylated by JAK. The phosphorylated STAT1 forms a homodimer which is translocated to the nucleus and works as transcription factors. STAT1c = 1000nM = 1uM Appendix, Satoshi Yamada et al 2003 FEBS Letters 534:190-196

    STAT1c acting as a Substrate in a reaction in  
    Jak-Stat_Pathway 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
    1
  • STAT1c_
    binding[2]
  • Jak-Stat_
    Pathway

    Accession No. : 66
  • Jak-Stat_
    Pathway

    Pathway No. : 293
  • 8
    (uM^-1 s^-1)
    0.8
    (s^-1)
    Kd(bf) = 0.1(uM)-Substrate
    SOCS1-IFNRJ2*
    STAT1c

    Product
  • SOCS1-IFNRJ2*-ST
    AT1c

  •   Binding of STAT1c to JAK-IFNR phosphorylated dimer complexed with SOCS1 Kf = 8*10e+06 /M/sec = 8/uM/sec Kb = 0.8 /sec Appendix, Satoshi Yamada et al 2003 FEBS Letters 534:190-196
    2
  • STAT1c_
    binding[1]
  • Jak-Stat_
    Pathway

    Accession No. : 66
  • Jak-Stat_
    Pathway

    Pathway No. : 293
  • 8
    (uM^-1 s^-1)
    0.8
    (s^-1)
    Kd(bf) = 0.1(uM)-Substrate
    IFNRJ2*
    STAT1c

    Product
    IFNRJ2*-STAT1c
      Binding of STAT1c to JAK-IFNR phosphorylated dimer Kf = 8*10e+06 /M/sec = 8/uM/sec Kb = 0.8 /sec Appendix, Satoshi Yamada et al 2003 FEBS Letters 534:190-196
    3
  • STAT1c_
    binding[3]
  • Jak-Stat_
    Pathway

    Accession No. : 66
  • Jak-Stat_
    Pathway

    Pathway No. : 293
  • 8
    (uM^-1 s^-1)
    0.8
    (s^-1)
    Kd(bf) = 0.1(uM)-Substrate
  • SOCS1-IFNRJ2*-SH
    P2

    STAT1c

    Product
  • SOCS1-IFNRJ2*-ST
    AT1c-SHP-2

  •   Binding reaction of STAT1c + SOCS1-IFNRJ2*-SHP2. kf = 8/sec/uM kb = 0.8/sec Appendix, Satoshi Yamada et al 2003 FEBS Letters 534:190-196.

    STAT1c acting as a Product in a reaction in  
    Jak-Stat_Pathway 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
    1
  • STAT1c*_
    dephosphorylatio
    n[1]
  • Jak-Stat_
    Pathway

    Accession No. : 66
  • Jak-Stat_
    Pathway

    Pathway No. : 293
  • 0.003
    (s^-1)
    0
    (uM^-2 s^-1)
    --Substrate
  • PPX-STAT1c*-STAT
    1c*


    Product
    PPX
    STAT1c
    STAT1c*
  •   Cytoplasmic phosphatase (PPX) dephosphorylates STAT1c dimer Kf = 0.003/sec Kb = 0/sec/uM^2 Appendix, Satoshi Yamada et al 2003 FEBS Letters 534:190-196
    2
  • dephospo_
    IFNRJ2*
  • Jak-Stat_
    Pathway

    Accession No. : 66
  • Jak-Stat_
    Pathway

    Pathway No. : 293
  • 0.003
    (s^-1)
    0
    (uM^-2 s^-1)
    --Substrate
  • IFNRJ2*-STAT1c-S
    HP2


    Product
    IFNRJ2
    SHP-2
    STAT1c
  • 3
  • IFNRJ2*_
    dephospo
  • Jak-Stat_
    Pathway

    Accession No. : 66
  • Jak-Stat_
    Pathway

    Pathway No. : 293
  • 0.003
    (s^-1)
    0
    (uM^-3 s^-1)
    --Substrate
  • SOCS1-IFNRJ2*-ST
    AT1c-SHP-2


    Product
    IFNRJ2
    SHP-2
    SOCS1
    STAT1c
  •   SHP-2 dephosphorylates JAK-IFNR dimer complexed with SOCS1 and STAT1c Kf = 0.003 /sec Kb = 0 /sec Appendix, Satoshi Yamada et al 2003 FEBS Letters 534:190-196
    4
  • STAT1n_cyto_
    trans
  • Jak-Stat_
    Pathway

    Accession No. : 66
  • Jak-Stat_
    Pathway

    Pathway No. : 293
  • 0.05
    (s^-1)
    0
    (s^-1)
    --Substrate
    STAT1n

    Product
    STAT1c
      Transport of nucleoplasmic STAT1 to the cytoplasm Kf = 0.05 /sec Kb = 0 /sec Appendix, Satoshi Yamada et al 2003 FEBS Letters 534:190-196
    5STAT1c*_dephosp
  • Jak-Stat_
    Pathway

    Accession No. : 66
  • Jak-Stat_
    Pathway

    Pathway No. : 293
  • 0.003
    (s^-1)
    0
    (uM^-1 s^-1)
    --Substrate
    PPX-STAT1c*

    Product
    PPX
    STAT1c
      Cytoplasmic phosphatase (PPX) dephosphorylates STAT1c Kf = 0.003/sec Kb = 0/sec/uM Appendix, Satoshi Yamada et al 2003 FEBS Letters 534:190-196



    Database compilation and code copyright (C) 2022, Upinder S. Bhalla and NCBS/TIFR
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