| Original Literature | Model OverView |
|---|---|
|
Publication
Title
Peptidoglycan signaling in innate immunity and inflammatory disease.
Affiliation
Department of Pathology and Comprehensive Cancer Center, the University ofMichigan Medical School, Ann Arbor, Michigan 48109, USA.
Abstract
PMID
15802263
|
 |
Entity
G010262:IL-6
G010329:TNF-alpha
G010514:iNOS
G010815:MCP1
G029941:COX2
MO000000011:ERK
MO000000022:p38
MO000000023:JNK
MO000000058:NF-kappaB{active}
MO000000059:SRF{active}
MO000000276:AP-1
MO000000289:TNF-alpha
MO000007330:proIL-18
MO000007384:IL-6
MO000016597:IL-1beta
MO000016625:IL-18
MO000016828:Caspase-1
MO000016894:MAPK
MO000017189:CREB{active}
MO000017264:IL-8
MO000017266:COX-2
MO000017280:MCP-1
MO000017949:RIP2
MO000019397:TLR2
MO000019449:proIL-1beta
MO000019886:MIP-1alpha
MO000020434:Nod1
MO000020461:Nod2
MO000021201:iNOS
MO000042032:PGN
MO000044014:ASC
MO000061612:CARD8
MO000116924:Cryopyrin
e1:
e10:
e11:Nod1 oligomer:iE-DAP
e12:Nod1 oligomer:iE-DAP:RIP2
e13:IKK complex(IKKalpha:IKKbeta:IKKgamma)
e14:IKk complex(IKKalpha:IKKbeta:IKKgamma){active}
e15:IKappaB-alpha:NF-KappaB
e16:IKappaB-alpha{p}:NF-KappaB
e17:protein remnants
e18:NF-kappaB
e19:AP-1{active}
e2:
e20:MAPK{active}
e21:JNK{active}
e22:ERK{active}
e23:p38{active}
e24:SRF
e25:CREB
e26:IL-8
e27:MIP-1alpha
e28:VCAM
e29:VCAM
e3:
e30:ICAM
e31:ICAM
e32:E-selectin
e33:E-selectin
e34:Nod2 oligomer:PGN (MDP)
e35:Nod2:MDP
e36:Nod2 oligomer:PGN(MDP):RIP2
e37:IKk complex(IKKalpha:IKKbeta:IKKgamma{p}){active}
e38:NF-kappaB
e39:MDP
e4:
e40:Cryopyrin:MDP
e41:CIAS1
e42:cryopyrin
e43:Cryopyrin:ASC:CARD8:caspase-1
e44:Lipoproteins
e45:TLR2:Lipoproteins
e46:Lipoteichoic acid
e47:TLR2:Lipoteichoic acid
e48:PGRPs
e49:PGN
e5:iE-DAP
e50:
e51:
e52:
e53:
e54:
e55:
e56:
e57:
e58:
e59:
e6:Nod1:iE-DAP
e60:
e61:
e62:
e63:PGRPs:PGN
e64:Bacteria
e65:PGRPs:Bacteria
e66:PGRP-L
e67:PGRP-L:PGN
e68:Remnants
e7:
e8:
e9:Process
p1
p10
p11
p12
p13
p14
p15
p16
p17
p18
p19
p2
p20
p21
p22
p23
p24
p25
p26
p27
p28
p29
p3
p30
p31
p32
p33
p34
p35
p36
p37
p38
p39
p4
p40
p41
p42
p43
p44
p45
p46
p47
p48
p49
p5
p50
p51
p52
p53
p54
p55
p56
p57
p58
p59
p6
p60
p61
p62
p63
p64
p65
p66
p67
p68
p69
p7
p70
p71
p72
p73
p74
p75
p76
p77
p78
p79
p8
p80
p81
p82
p83
p84
p85
p86
p87
p88
p89
p9
p90
p91
p92
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
c10
c10
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c100
c100
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c101
c101
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c102
c102
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c103
c103
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c104
c104
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c105
c105
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c107
c107
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c108
c108
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c109
c109
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c11
c11
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c110
c110
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c111
c111
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c112
c112
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c113
c113
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c114
c114
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c115
c115
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c116
c116
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c117
c117
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c118
c118
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c119
c119
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c12
c12
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c120
c120
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c121
c121
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c122
c122
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c123
c123
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c125
c125
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c126
c126
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c127
c127
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c128
c128
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c129
c129
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c13
c13
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c131
c131
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c132
c132
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c133
c133
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c135
c135
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c136
c136
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c137
c137
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c138
c138
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c139
c139
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c14
c14
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c141
c141
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c142
c142
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c143
c143
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c144
c144
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c145
c145
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c146
c146
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c147
c147
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c148
c148
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c149
c149
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c150
c150
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c151
c151
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c152
c152
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c153
c153
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c154
c154
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c155
c155
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c156
c156
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c157
c157
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c158
c158
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c159
c159
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c16
c16
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c160
c160
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c161
c161
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c162
c162
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c163
c163
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c166
c166
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c167
c167
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c169
c169
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c17
c17
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c170
c170
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c172
c172
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c173
c173
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c174
c174
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c176
c176
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c177
c177
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c178
c178
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c179
c179
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c18
c18
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c180
c180
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c184
c184
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c185
c185
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c186
c186
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c187
c187
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c188
c188
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c189
c189
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c192
c192
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c193
c193
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c194
c194
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c195
c195
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c196
c196
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c197
c197
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c198
c198
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c199
c199
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c201
c201
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c202
c202
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c204
c204
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c205
c205
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c21
c21
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c210
c210
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c214
c214
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c215
c215
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c219
c219
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c22
c22
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c220
c220
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c221
c221
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c23
c23
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c24
c24
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c27
c27
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c28
c28
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c30
c30
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c32
c32
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c33
c33
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c34
c34
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c35
c35
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c38
c38
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c39
c39
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c4
c4
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c40
c40
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c41
c41
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c42
c42
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c44
c44
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c45
c45
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c47
c47
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c48
c48
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c5
c5
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c50
c50
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c51
c51
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c53
c53
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c54
c54
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c55
c55
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c56
c56
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c57
c57
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c59
c59
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c60
c60
cso30:c:InputProcess
--
cso30:c:InputProcess
threshold
--
0
1,
--
c62
c62
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c63
c63
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c64
c64
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c65
c65
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c66
c66
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c67
c67
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c68
c68
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c69
c69
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c7
c7
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c70
c70
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c71
c71
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c73
c73
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c74
c74
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c75
c75
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c76
c76
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c77
c77
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c78
c78
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c79
c79
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c80
c80
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c82
c82
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c83
c83
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c84
c84
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c85
c85
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c87
c87
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c88
c88
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c89
c89
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c91
c91
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c92
c92
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c93
c93
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c95
c95
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c97
c97
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
c98
c98
cso30:c:OutputProcess
--
cso30:c:OutputProcess
threshold
--
0
1,
--
c99
c99
cso30:c:InputAssociation
--
cso30:c:InputAssociation
threshold
--
0
1,
--
