Entity
Process
TNF-alpha
--
G010329
cso30:c:mRNA
cso30:i:CC_CellComponent
--
csml-variable:Double
m93309
10
infinite
0
TRANSFAC | G010329 |
--
NF-kappaB{active}
--
MO000000058
cso30:c:Protein
cso30:i:CC_CellComponent
--
csml-variable:Double
m18
10
infinite
0
TRANSPATH | MO000000058 |
--
SRF{active}
--
MO000000059
cso30:c:Protein
cso30:i:CC_CellComponent
--
csml-variable:Double
m28
10
infinite
0
InterPro | IPR005829 |
TRANSPATH | MO000000059 |
--
AP-1
--
MO000000276
cso30:c:Protein
cso30:i:CC_CellComponent
--
csml-variable:Double
m219
10
infinite
0
TRANSPATH | MO000000276 |
--
TNF-alpha
--
MO000000289
cso30:c:Protein
cso30:i:CC_CellComponent
--
--
csml-variable:Double
m230
10
infinite
0
InterPro | IPR003636 |
TRANSPATH | MO000000289 |
--
CREB{active}
--
MO000017189
cso30:c:Protein
cso30:i:CC_CellComponent
--
csml-variable:Double
m2057
10
infinite
0
InterPro | IPR003102 |
TRANSPATH | MO000017189 |
--
proIL-1beta
--
MO000019449
cso30:c:Protein
cso30:i:CC_CellComponent
--
--
csml-variable:Double
m4012
10
infinite
0
InterPro | IPR003297 |
TRANSPATH | MO000019449 |
--
MIP-1alpha
--
MO000019886
cso30:c:Protein
cso30:i:CC_CellComponent
--
--
csml-variable:Double
m4415
10
infinite
0
InterPro | IPR000827 |
TRANSPATH | MO000019886 |
--
Cryopyrin
--
MO000116924
cso30:c:Protein
cso30:i:CC_CellComponent
--
csml-variable:Double
m86033
10
infinite
0
TRANSPATH | MO000116924 |
--
--
e1
cso30:c:EntityBiologicalCompartment
cso30:i:CC_PlasmaMembrane
--
--
--
csml-variable:Double
m1
0
infinite
0
--
--
e10
cso30:c:EntityBiologicalCompartment
cso30:i:CC_Cytosol
--
--
--
csml-variable:Double
m10
0
infinite
0
--
Nod1 oligomer:iE-DAP
--
e11
cso30:c:Complex
cso30:i:CC_Cytosol
--
csml-variable:Double
m11
0
infinite
0
--
Nod1 oligomer:iE-DAP:RIP2
--
e12
cso30:c:Complex
cso30:i:CC_Cytosol
--
csml-variable:Double
m12
0
infinite
0
--
IKK complex(IKKalpha:IKKbeta:IKKgamma)
--
e13
cso30:c:Complex
cso30:i:CC_Cytosol
--
csml-variable:Double
m13
0
infinite
0
--
IKk complex(IKKalpha:IKKbeta:IKKgamma){active}
--
e14
cso30:c:Complex
cso30:i:CC_Cytosol
--
csml-variable:Double
m14
0
infinite
0
--
IKappaB-alpha:NF-KappaB
--
e15
cso30:c:Complex
cso30:i:CC_Cytosol
--
--
csml-variable:Double
m15
0
infinite
0
--
IKappaB-alpha{p}:NF-KappaB
--
e16
cso30:c:Complex
cso30:i:CC_Cytosol
--
csml-variable:Double
m16
0
infinite
0
--
protein remnants
--
e17
cso30:c:EntityBiological
cso30:i:CC_Cytosol
--
--
csml-variable:Double
m17
0
infinite
0
--
NF-kappaB
--
e18
cso30:c:Protein
cso30:i:CC_CellComponent
--
csml-variable:Double
m19
10
infinite
0
TRANSPATH | MO000000058 |
--
AP-1{active}
--
e19
cso30:c:Protein
cso30:i:CC_CellComponent
--
csml-variable:Double
m20
10
infinite
0
TRANSPATH | MO000000276 |
--
--
e2
cso30:c:EntityBiologicalCompartment
cso30:i:CC_PlasmaMembrane_ExternalSideOfPlasmaMembrane_
--
--
--
csml-variable:Double
m2
0
infinite
0
--
MAPK{active}
--
e20
cso30:c:Protein
cso30:i:CC_CellComponent
--
csml-variable:Double
m21
10
infinite
0
TRANSPATH | MO000016894 |
--
JNK{active}
--
e21
cso30:c:Protein
cso30:i:CC_CellComponent
--
csml-variable:Double
m23
10
infinite
0
TRANSPATH | MO000000023 |
--
ERK{active}
--
e22
cso30:c:Protein
cso30:i:CC_CellComponent
--
csml-variable:Double
m25
10
infinite
0
TRANSPATH | MO000000011 |
--
p38{active}
--
e23
cso30:c:Protein
cso30:i:CC_CellComponent
--
csml-variable:Double
m27
10
infinite
0
TRANSPATH | MO000000022 |
--
IL-8
--
e26
cso30:c:mRNA
cso30:i:CC_Nucleoplasm
--
csml-variable:Double
m31
0
infinite
0
--
MIP-1alpha
--
e27
cso30:c:mRNA
cso30:i:CC_Nucleoplasm
--
csml-variable:Double
m32
0
infinite
0
--
VCAM
--
e28
cso30:c:mRNA
cso30:i:CC_Cytosol
--
csml-variable:Double
m33
0
infinite
0
--
VCAM
--
e29
cso30:c:Protein
cso30:i:CC_Cytosol
--
--
csml-variable:Double
m34
0
infinite
0
--
--
e3
cso30:c:EntityBiologicalCompartment
cso30:i:CC_PlasmaMembrane_IntegralToPlasmaMembrane_
--
--
--
csml-variable:Double
m3
0
infinite
0
--
ICAM
--
e30
cso30:c:mRNA
cso30:i:CC_Cytosol
--
csml-variable:Double
m35
0
infinite
0
--
csml-variable:Double
m36
0
infinite
0
--
E-selectin
--
e32
cso30:c:mRNA
cso30:i:CC_Cytosol
--
csml-variable:Double
m37
0
infinite
0
--
E-selectin
--
e33
cso30:c:Protein
cso30:i:CC_Cytosol
--
--
csml-variable:Double
m38
0
infinite
0
--
Nod2 oligomer:PGN (MDP)
--
e34
cso30:c:Complex
cso30:i:CC_Cytosol
--
csml-variable:Double
m39
0
infinite
0
--
Nod2:MDP
--
e35
cso30:c:Complex
cso30:i:CC_Cytosol
--
csml-variable:Double
m40
0
infinite
0
--
Nod2 oligomer:PGN(MDP):RIP2
--
e36
cso30:c:Complex
cso30:i:CC_Cytosol
--
csml-variable:Double
m41
0
infinite
0
--
IKk complex(IKKalpha:IKKbeta:IKKgamma{p}){active}
--
e37
cso30:c:Complex
cso30:i:CC_Cytosol
--
csml-variable:Double
m42
0
infinite
0
--
MDP
--
e39
cso30:c:SmallMolecule
cso30:i:CC_Cytosol
--
--
csml-variable:Double
m44
0
infinite
0
--
--
e4
cso30:c:EntityBiologicalCompartment
cso30:i:CC_PlasmaMembrane_InternalSideOfPlasmaMembrane_
--
--
--
csml-variable:Double
m4
0
infinite
0
--
Cryopyrin:MDP
--
e40
cso30:c:Complex
cso30:i:CC_Cytosol
--
csml-variable:Double
m45
0
infinite
0
--
csml-variable:Double
m46
0
infinite
0
--
cryopyrin
--
e42
cso30:c:mRNA
cso30:i:CC_Cytosol
--
csml-variable:Double
m47
0
infinite
0
--
Cryopyrin:ASC:CARD8:caspase-1
--
e43
cso30:c:Complex
cso30:i:CC_Cytosol
--
csml-variable:Double
m48
0
infinite
0
--
Lipoproteins
--
e44
cso30:c:SmallMolecule
cso30:i:CC_Cytosol
--
--
csml-variable:Double
m49
0
infinite
0
--
TLR2:Lipoproteins
--
e45
cso30:c:Complex
cso30:i:CC_Cytosol
--
--
csml-variable:Double
m63
0
infinite
0
--
Lipoteichoic acid
--
e46
cso30:c:SmallMolecule
cso30:i:CC_Cytosol
--
--
csml-variable:Double
m64
0
infinite
0
--
TLR2:Lipoteichoic acid
--
e47
cso30:c:Complex
cso30:i:CC_Cytosol
--
--
csml-variable:Double
m65
0
infinite
0
--
PGRPs
--
e48
cso30:c:Protein
cso30:i:CC_Extracellular
--
csml-variable:Double
m66
0
infinite
0
--
iE-DAP
--
e5
cso30:c:SmallMolecule
cso30:i:CC_Cytosol
--
csml-variable:Double
m5
0
infinite
0
--
--
e50
cso30:c:EntityBiologicalCompartment
cso30:i:CC_NuclearEnvelopeLumen
--
--
--
csml-variable:Double
m50
0
infinite
0
--
--
e51
cso30:c:EntityBiologicalCompartment
cso30:i:CC_NuclearPore
--
--
--
csml-variable:Double
m51
0
infinite
0
--
--
e52
cso30:c:EntityBiologicalCompartment
cso30:i:CC_NuclearInnerMembrane
--
--
--
csml-variable:Double
m52
0
infinite
0
--
--
e53
cso30:c:EntityBiologicalCompartment
cso30:i:CC_NuclearLumen
--
--
--
csml-variable:Double
m53
0
infinite
0
--
--
e54
cso30:c:EntityBiologicalCompartment
cso30:i:CC_NuclearOuterMembrane
--
--
--
csml-variable:Double
m54
0
infinite
0
--
--
e55
cso30:c:EntityBiologicalCompartment
cso30:i:CC_Nucleus
--
--
--
csml-variable:Double
m55
0
infinite
0
--
--
e56
cso30:c:EntityBiologicalCompartment
cso30:i:CC_Nucleoplasm
--
--
--
csml-variable:Double
m56
0
infinite
0
--
--
e57
cso30:c:EntityBiologicalCompartment
cso30:i:CC_NuclearBody
--
--
--
csml-variable:Double
m57
0
infinite
0
--
--
e58
cso30:c:EntityBiologicalCompartment
cso30:i:CC_Nucleolus
--
--
--
csml-variable:Double
m58
0
infinite
0
--
--
e59
cso30:c:EntityBiologicalCompartment
cso30:i:CC_NuclearEnvelope
--
--
--
csml-variable:Double
m59
0
infinite
0
--
Nod1:iE-DAP
--
e6
cso30:c:Complex
cso30:i:CC_Cytosol
--
csml-variable:Double
m6
0
infinite
0
--
--
e60
cso30:c:EntityBiologicalCompartment
cso30:i:CC_Chromatin
--
--
--
csml-variable:Double
m60
0
infinite
0
--
--
e61
cso30:c:EntityBiologicalCompartment
cso30:i:CC_NuclearChromosome
--
--
--
csml-variable:Double
m61
0
infinite
0
--
--
e62
cso30:c:EntityBiologicalCompartment
cso30:i:CC_NuclearCentromere
--
--
--
csml-variable:Double
m62
0
infinite
0
--
PGRPs:PGN
--
e63
cso30:c:Complex
cso30:i:CC_Extracellular
--
--
csml-variable:Double
m68
0
infinite
0
--
Bacteria
--
e64
cso30:c:Cell
cso30:i:CC_Extracellular
--
--
csml-variable:Double
m69
0
infinite
0
--
PGRPs:Bacteria
--
e65
cso30:c:Cell
cso30:i:CC_Extracellular
--
--
csml-variable:Double
m70
0
infinite
0
--
PGRP-L
--
e66
cso30:c:Protein
cso30:i:CC_Extracellular
--
csml-variable:Double
m71
0
infinite
0
--
PGRP-L:PGN
--
e67
cso30:c:Complex
cso30:i:CC_Extracellular
--
csml-variable:Double
m72
0
infinite
0
--
Remnants
--
e68
cso30:c:EntityBiological
cso30:i:CC_Extracellular
--
--
csml-variable:Double
m73
0
infinite
0
--
--
e7
cso30:c:EntityBiologicalCompartment
cso30:i:CC_Cell
--
--
--
csml-variable:Double
m7
0
infinite
0
--
--
e8
cso30:c:EntityBiologicalCompartment
cso30:i:CC_Cell_WithoutCellWall_
--
--
--
csml-variable:Double
m8
0
infinite
0
--
--
e9
cso30:c:EntityBiologicalCompartment
cso30:i:CC_Cytoplasm
--
--
--
csml-variable:Double
m9
0
infinite
0
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c3 : 1
stoichiometry:c4 : 1
stoichiometry:c5 : 1
m4923*m5*0.1
nodelay
--
0
PMID: 15802263,12796777,12871942 The real ligand of Nod1 was characterized as PGN fragments that contain the dipeptide, D-gamma-glutamyl-meso- DAP (iE-DAP), which can either be generated by degradation of PGN or secreted by bacteria during replication
p10
p10
cso30:i:ME_UnknownActivation
cso30:i:CC_Cytosol
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c24 : 1
stoichiometry:c25 : 1
stoichiometry:c26 : 1
m12*m1812*0.1
nodelay
--
0
PMID: 15802263 Nod1 and RICK also activate the MAPK-stimulated pathways JNK, Erk, and p38 that result in the activation of specific transcription factors, such as AP-1, SRF, and CREB
p10
p11
cso30:i:ME_UnknownActivation
cso30:i:CC_Cytosol
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c27 : 1
stoichiometry:c28 : 1
stoichiometry:c29 : 1
m21*m22*0.1
nodelay
--
0
PMID: 15802263 Nod1 and RICK also activate the MAPK-stimulated pathways JNK, Erk, and p38 that result in the activation of specific transcription factors, such as AP-1, SRF, and CREB
p10
p12
cso30:i:ME_UnknownActivation
cso30:i:CC_Cytosol
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c30 : 1
stoichiometry:c31 : 1
stoichiometry:c32 : 1
m21*m24*0.1
nodelay
--
0
PMID: 15802263 Nod1 and RICK also activate the MAPK-stimulated pathways JNK, Erk, and p38 that result in the activation of specific transcription factors, such as AP-1, SRF, and CREB
p10
p13
cso30:i:ME_UnknownActivation
cso30:i:CC_Cytosol
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c33 : 1
stoichiometry:c34 : 1
stoichiometry:c35 : 1
m21*m26*0.1
nodelay
--
0
PMID: 15802263 Nod1 and RICK also activate the MAPK-stimulated pathways JNK, Erk, and p38 that result in the activation of specific transcription factors, such as AP-1, SRF, and CREB
p10
p14
cso30:i:ME_UnknownActivation
cso30:i:CC_Cytosol
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c23 : 1
stoichiometry:c36 : 1
stoichiometry:c37 : 1
m25*m219*0.1
nodelay
--
0
PMID: 15802263 Nod1 and RICK also activate the MAPK-stimulated pathways JNK, Erk, and p38 that result in the activation of specific transcription factors, such as AP-1, SRF, and CREB
p10
p15
cso30:i:ME_UnknownActivation
cso30:i:CC_Cytosol
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c38 : 1
stoichiometry:c39 : 1
stoichiometry:c40 : 1
m27*m219*0.1
nodelay
--
0
PMID: 15802263 Nod1 and RICK also activate the MAPK-stimulated pathways JNK, Erk, and p38 that result in the activation of specific transcription factors, such as AP-1, SRF, and CREB
p10
p16
cso30:i:ME_UnknownActivation
cso30:i:CC_Cytosol
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c41 : 1
stoichiometry:c42 : 1
stoichiometry:c43 : 1
m23*m219*0.1
nodelay
--
0
PMID: 15802263 Nod1 and RICK also activate the MAPK-stimulated pathways JNK, Erk, and p38 that result in the activation of specific transcription factors, such as AP-1, SRF, and CREB
p10
p17
cso30:i:ME_UnknownActivation
cso30:i:CC_Cytosol
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c44 : 1
stoichiometry:c45 : 1
stoichiometry:c46 : 1
m25*m29*0.1
nodelay
--
0
PMID: 15802263 Nod1 and RICK also activate the MAPK-stimulated pathways JNK, Erk, and p38 that result in the activation of specific transcription factors, such as AP-1, SRF, and CREB
p10
p18
cso30:i:ME_UnknownActivation
cso30:i:CC_Cytosol
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c47 : 1
stoichiometry:c48 : 1
stoichiometry:c49 : 1
m27*m29*0.1
nodelay
--
0
PMID: 15802263 Nod1 and RICK also activate the MAPK-stimulated pathways JNK, Erk, and p38 that result in the activation of specific transcription factors, such as AP-1, SRF, and CREB
p10
p19
cso30:i:ME_UnknownActivation
cso30:i:CC_Cytosol
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c50 : 1
stoichiometry:c51 : 1
stoichiometry:c52 : 1
m23*m29*0.1
nodelay
--
0
PMID: 15802263 Nod1 and RICK also activate the MAPK-stimulated pathways JNK, Erk, and p38 that result in the activation of specific transcription factors, such as AP-1, SRF, and CREB
p2
p2
cso30:i:ME_UnknownDegradation
cso30:i:CC_Extracellular
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c1 : 1
stoichiometry:c2 : 1
m155701*0.1
nodelay
--
0
PMID: 15802263,12796777,12871942 The real ligand of Nod1 was characterized as PGN fragments that contain the dipeptide, D-gamma-glutamyl-meso- DAP (iE-DAP), which can either be generated by degradation of PGN or secreted by bacteria during replication
p10
p20
cso30:i:ME_UnknownActivation
cso30:i:CC_Cytosol
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c53 : 1
stoichiometry:c54 : 1
stoichiometry:c55 : 1
m23*m30*0.1
nodelay
--
0
PMID: 15802263 Nod1 and RICK also activate the MAPK-stimulated pathways JNK, Erk, and p38 that result in the activation of specific transcription factors, such as AP-1, SRF, and CREB
p10
p21
cso30:i:ME_UnknownActivation
cso30:i:CC_Cytosol
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c56 : 1
stoichiometry:c57 : 1
stoichiometry:c58 : 1
m27*m30*0.1
nodelay
--
0
PMID: 15802263 Nod1 and RICK also activate the MAPK-stimulated pathways JNK, Erk, and p38 that result in the activation of specific transcription factors, such as AP-1, SRF, and CREB
p10
p22
cso30:i:ME_UnknownActivation
cso30:i:CC_Cytosol
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c59 : 1
stoichiometry:c60 : 1
stoichiometry:c61 : 1
m25*m30*0.1
nodelay
--
0
PMID: 15802263 Nod1 and RICK also activate the MAPK-stimulated pathways JNK, Erk, and p38 that result in the activation of specific transcription factors, such as AP-1, SRF, and CREB
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c63 : 1
stoichiometry:c64 : 1
m93248*0.1
nodelay
--
0
PMID: 15802263 Figure2 PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes.
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c65 : 1
stoichiometry:c66 : 1
m19*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c67 : 1
stoichiometry:c68 : 1
m31*0.1
nodelay
--
0
PMID: 15802263 Figure2 PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes.
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c69 : 1
stoichiometry:c70 : 1
m19*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c71 : 1
stoichiometry:c72 : 1
m93309*0.1
nodelay
--
0
PMID: 15802263 Figure2 PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes.
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c73 : 1
stoichiometry:c75 : 1
m19*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c76 : 1
stoichiometry:c74 : 1
m93710*0.1
nodelay
--
0
PMID: 15802263 Figure2 PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes.
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c6 : 1
stoichiometry:c7 : 1
m6*0.1
nodelay
--
0
PMID: 15802263,10880512 Nod1 activates NF-KappaB through recruitment and oligomerization of RICK (also called RIP2 or CARDIAK), which results in the activation of the IKK complex PMID: 15802263 Stimulation of cells with iE-DAP causes the oligomerization of Nod1 and recruitment of the protein kinase RICK.
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c77 : 1
stoichiometry:c78 : 1
m28*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c79 : 1
stoichiometry:c80 : 1
m2057*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c84 : 1
stoichiometry:c81 : 1
m32*0.1
nodelay
--
0
PMID: 15802263 Figure2 PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes.
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c82 : 1
stoichiometry:c83 : 1
m19*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c85 : 1
stoichiometry:c86 : 1
m19*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c87 : 1
stoichiometry:c88 : 1
m33*0.1
nodelay
--
0
PMID: 15802263 Figure2 PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes.
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c89 : 1
stoichiometry:c90 : 1
m19*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c91 : 1
stoichiometry:c92 : 1
m35*0.1
nodelay
--
0
PMID: 15802263 Figure2 PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes.
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c93 : 1
stoichiometry:c94 : 1
m19*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c95 : 1
stoichiometry:c96 : 1
m37*0.1
nodelay
--
0
PMID: 15802263 Figure2 PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes.
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c8 : 1
stoichiometry:c9 : 1
stoichiometry:c10 : 1
m11*m2684*0.1
nodelay
--
0
PMID: 15802263 Stimulation of cells with iE-DAP causes the oligomerization of Nod1 and recruitment of the protein kinase RICK. PMID: 15802263,10880512 Nod1 activates NF-KappaB through recruitment and oligomerization of RICK (also called RIP2 or CARDIAK), which results in the activation of the IKK complex
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c97 : 1
stoichiometry:c98 : 1
m20*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c99 : 1
stoichiometry:c100 : 1
m28*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c101 : 1
stoichiometry:c102 : 1
m20*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c103 : 1
stoichiometry:c104 : 1
m2057*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c105 : 1
stoichiometry:c106 : 1
m28*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c107 : 1
stoichiometry:c108 : 1
m20*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c109 : 1
stoichiometry:c110 : 1
m2057*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c111 : 1
stoichiometry:c112 : 1
m28*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c113 : 1
stoichiometry:c114 : 1
m20*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c115 : 1
stoichiometry:c116 : 1
m2057*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c11 : 1
stoichiometry:c12 : 1
stoichiometry:c13 : 1
m12*m13*0.1
nodelay
--
0
PMID: 15802263,10880512 Nod1 activates NF-KappaB through recruitment and oligomerization of RICK (also called RIP2 or CARDIAK), which results in the activation of the IKK complex
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c117 : 1
stoichiometry:c118 : 1
m28*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c119 : 1
stoichiometry:c120 : 1
m20*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c121 : 1
stoichiometry:c122 : 1
m2057*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c123 : 1
stoichiometry:c124 : 1
m28*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c125 : 1
stoichiometry:c126 : 1
m20*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c127 : 1
stoichiometry:c128 : 1
m2057*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c129 : 1
stoichiometry:c130 : 1
m28*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c131 : 1
stoichiometry:c132 : 1
m20*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c133 : 1
stoichiometry:c134 : 1
m2057*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c135 : 1
stoichiometry:c136 : 1
m20*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c14 : 1
stoichiometry:c15 : 1
stoichiometry:c16 : 1
m14*m15*0.1
nodelay
--
0
PMID: 15802263 RICK activates the IKK complex, which then phosphorylates (P) IKappaBalpha, signaling its degradation by the proteasome.
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c137 : 1
stoichiometry:c138 : 1
m2057*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c139 : 1
stoichiometry:c140 : 1
m28*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c144 : 1
stoichiometry:c143 : 1
m19*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c141 : 1
stoichiometry:c142 : 1
m93479*0.1
nodelay
--
0
PMID: 15802263 Figure2 PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes.
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c145 : 1
stoichiometry:c146 : 1
m2057*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c147 : 1
stoichiometry:c148 : 1
m28*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c149 : 1
stoichiometry:c150 : 1
m20*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c152 : 1
stoichiometry:c151 : 1
m108639*0.1
nodelay
--
0
PMID: 15802263 Figure2 PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes.
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c153 : 1
stoichiometry:c157 : 1
stoichiometry:c154 : 1
m19*m20*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c155 : 1
stoichiometry:c156 : 1
m28*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
p7
p7
cso30:i:ME_ProteasomeDegradation
cso30:i:CC_Cytosol
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c17 : 1
stoichiometry:c18 : 1
stoichiometry:c19 : 1
m16*0.1
nodelay
--
0
PMID: 15802263 RICK activates the IKK complex, which then phosphorylates (P) IKappaBalpha, signaling its degradation by the proteasome.
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c158 : 1
stoichiometry:c159 : 1
m20*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c162 : 1
stoichiometry:c163 : 1
m2057*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c161 : 1
stoichiometry:c160 : 1
m2057*0.1
nodelay
--
0
--
p73
p73
cso30:i:ME_Binding
cso30:i:CC_Cytosol
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c165 : 1
stoichiometry:c164 : 1
stoichiometry:c166 : 1
m4947*m155701*0.1
nodelay
--
0
PMID: 15802263 The specific moiety of PGN that stimulates Nod2 activity is MDP PMID: 15802263,12871942,12514169,12791997 MDP is a common component of almost all types of PGN, indicating that Nod2 acts as a general sensor of PGN
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c167 : 1
stoichiometry:c168 : 1
m40*0.1
nodelay
--
0
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c169 : 1
stoichiometry:c170 : 1
stoichiometry:c171 : 1
m39*m2684*0.1
nodelay
--
0
PMID: 15802263,12791997 Once activated by MDP, Nod2 activates downstream inflammatory signaling pathways through RICK PMID: 15802263 Nod2 is activated by MDP stimulation of cells and, like Nod1, oligomerizes and recruits RICK, which activates the IKK complex and stimulates NF-KappaB activation by ubiquitinylation (Ub) of the IKKgamma subunit of the IKK complex.
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c172 : 1
stoichiometry:c173 : 1
stoichiometry:c174 : 1
m41*m13*0.1
nodelay
--
0
PMID: 15802263 Nod2 is activated by MDP stimulation of cells and, like Nod1, oligomerizes and recruits RICK, which activates the IKK complex and stimulates NF-KappaB activation by ubiquitinylation (Ub) of the IKKgamma subunit of the IKK complex.
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c175 : 1
stoichiometry:c176 : 1
m14*0.1
nodelay
--
0
PMID: 15802263 Nod2 is activated by MDP stimulation of cells and, like Nod1, oligomerizes and recruits RICK, which activates the IKK complex and stimulates NF-KappaB activation by ubiquitinylation (Ub) of the IKKgamma subunit of the IKK complex.
p78
p78
cso30:i:ME_UnknownActivation
cso30:i:CC_Cytosol
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c177 : 1
stoichiometry:c178 : 1
stoichiometry:c179 : 1
m42*m43*0.1
nodelay
--
0
PMID: 15802263 Nod2 is activated by MDP stimulation of cells and, like Nod1, oligomerizes and recruits RICK, which activates the IKK complex and stimulates NF-KappaB activation by ubiquitinylation (Ub) of the IKKgamma subunit of the IKK complex.
p79
p79
cso30:i:ME_UnknownActivation
cso30:i:CC_Cytosol
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c180 : 1
stoichiometry:c181 : 1
stoichiometry:c182 : 1
m41*m1812*0.1
nodelay
--
0
PMID: 15802263 Nod2 also activates the MAPK pathway upon stimulation.
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c20 : 1
stoichiometry:c21 : 1
m18*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes.
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c183 : 1
stoichiometry:c184 : 1
stoichiometry:c185 : 1
m86033*m44*0.1
nodelay
--
0
PMID: 15802263 Activation of cryopyrin by its proposed ligand, MDP, causes the formation of a complex composed of cryopyrin, ASC, CARD8, and caspase-1, which activates the IKK complex and NF-KappaB signaling, as well as induces maturation and secretion of pro-IL-1beta and pro-IL-18 through proteolytic cleavage by caspase-1.
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c186 : 1
stoichiometry:c187 : 1
m46*0.1
nodelay
--
0
PMID: 15802263,15163405 Cryopyrin is the protein product of the gene CIAS1, which is mutated in several hereditary fever syndromes and is expressed primarily in polymorphonuclear cells and chondrocytes
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c188 : 1
stoichiometry:c189 : 1
m47*0.1
nodelay
--
0
PMID: 15802263,15163405 Cryopyrin is the protein product of the gene CIAS1, which is mutated in several hereditary fever syndromes and is expressed primarily in polymorphonuclear cells and chondrocytes
p80
p83
cso30:i:ME_Binding
cso30:i:CC_Cytosol
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c190 : 1
stoichiometry:c192 : 1
stoichiometry:c193 : 1
stoichiometry:c194 : 1
stoichiometry:c191 : 1
m45*m21736*m36509*m1765*0.1
nodelay
--
0
PMID: 15802263 Activation of cryopyrin by its proposed ligand, MDP, causes the formation of a complex composed of cryopyrin, ASC, CARD8, and caspase-1, which activates the IKK complex and NF-KappaB signaling, as well as induces maturation and secretion of pro-IL-1beta and pro-IL-18 through proteolytic cleavage by caspase-1.
p84
p84
cso30:i:ME_UnknownActivation
cso30:i:CC_Extracellular
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c195 : 1
stoichiometry:c196 : 1
stoichiometry:c197 : 1
m48*m13*0.1
nodelay
--
0
PMID: 15802263 Activation of cryopyrin by its proposed ligand, MDP, causes the formation of a complex composed of cryopyrin, ASC, CARD8, and caspase-1, which activates the IKK complex and NF-KappaB signaling, as well as induces maturation and secretion of pro-IL-1beta and pro-IL-18 through proteolytic cleavage by caspase-1 PMID: 15802263 Figure 2
p85
p85
cso30:i:ME_Cleavage
cso30:i:CC_Extracellular
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c198 : 1
stoichiometry:c199 : 1
stoichiometry:c200 : 1
m48*m4012*0.1
nodelay
--
0
PMID: 15802263 Activation of cryopyrin by its proposed ligand, MDP, causes the formation of a complex composed of cryopyrin, ASC, CARD8, and caspase-1, which activates the IKK complex and NF-KappaB signaling, as well as induces maturation and secretion of pro-IL-1beta and pro-IL-18 through proteolytic cleavage by caspase-1
p85
p86
cso30:i:ME_Cleavage
cso30:i:CC_Extracellular
--
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c201 : 1
stoichiometry:c202 : 1
stoichiometry:c203 : 1
m48*m841*0.1
nodelay
--
0
PMID: 15802263 Activation of cryopyrin by its proposed ligand, MDP, causes the formation of a complex composed of cryopyrin, ASC, CARD8, and caspase-1, which activates the IKK complex and NF-KappaB signaling, as well as induces maturation and secretion of pro-IL-1beta and pro-IL-18 through proteolytic cleavage by caspase-1
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c204 : 1
stoichiometry:c205 : 1
stoichiometry:c206 : 1
m49*m3964*0.1
nodelay
--
0
PMID: 15802263,15359270 The results from this study demonstrated that TLR2 is not a sensor for PGN but is activated by the lipoproteins and lipoteichoic acids that are commonly present in these commercial PGN preparations
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c207 : 1
stoichiometry:c208 : 1
stoichiometry:c209 : 1
m3964*m64*0.1
nodelay
--
0
PMID: 15802263,15359270 The results from this study demonstrated that TLR2 is not a sensor for PGN but is activated by the lipoproteins and lipoteichoic acids that are commonly present in these commercial PGN preparations
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c210 : 1
stoichiometry:c211 : 1
stoichiometry:c212 : 1
m66*m67*0.1
nodelay
--
0
PMID: 15802263 All mammalian PGRPs have been shown to be secreted proteins and to bind directly to PGN as well as live bacteria.
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c22 : 1
stoichiometry:c62 : 1
m19*0.1
nodelay
--
0
PMID: 15802263 Once released from its inhibitor IKappaBalpha, the transcription factor NF-KappaB translocates to the nucleus and initiates the transcription of proinflammatory genes. PMID: 15802263 Figure2
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c213 : 1
stoichiometry:c214 : 1
stoichiometry:c215 : 1
m69*m66*0.1
nodelay
--
0
PMID: 15802263 All mammalian PGRPs have been shown to be secreted proteins and to bind directly to PGN as well as live bacteria.
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c216 : 1
stoichiometry:c217 : 1
stoichiometry:c218 : 1
m67*m71*0.1
nodelay
--
0
PMID: 15802263 PGRP-L binds to the muramyl tripeptide moiety in PGN and cleaves between the muramic acid and the first amino acid of the stem peptide chain, L-alanine PMID: 15802263,6120007,8605233 This specificity is identical to the PGN degradation enzyme, serum N-acetylmuramoyl-L-alanine amidase, leading investigators to conclude that they are the same enzyme
--
and
mass
coefficient1:0.1
coefficient2:1.0
stoichiometry:c219 : 1
stoichiometry:c220 : 1
stoichiometry:c221 : 1
m72*0.1
nodelay
--
0
PMID: 15802263 PGRP-L binds to the muramyl tripeptide moiety in PGN and cleaves between the muramic acid and the first amino acid of the stem peptide chain, L-alanine PMID: 15802263,6120007,8605233 This specificity is identical to the PGN degradation enzyme, serum N-acetylmuramoyl-L-alanine amidase, leading investigators to conclude that they are the same enzyme
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