|
AKT-mediated phosphorylation
|
AKT-mediated_phosphorylation |
|
|
binding of NF-kappaB and I-kappaB
|
binding_of_NF-kappaB_and_I-kappaB |
|
|
altered metabolic pathway of other amino acids
|
PW_0000402 |
|
|
transsulfuration pathway of homocysteine metabolism
|
PW_0000400 |
|
|
remethylation pathway of homocysteine metabolism - cobalamin independent, betaine dependent
|
PW_0000401 |
|
|
Renal Reabsorption
|
OMIT_0028677 |
|
|
paracrine signaling
|
GO_0038001 |
|
|
cell-cell signaling
|
GO_0007267 |
|
|
binding of STAT5 homodimer and GAS element
|
binding_of_STAT5_homodimer_and_GAS_element |
|
|
dopaminergic nigro-striatal pathway
|
dopaminergic_nigro-striatal_pathway |
|
|
central dopaminergic pathway
|
central_dopaminergic_pathway |
|
|
Sema4D in semaphorin signaling
|
Sema4D_in_semaphorin_signaling |
|
|
hydrolysis of procaspase 3 by caspase 8
|
hydrolysis_of_procaspase_3_by_caspase_8 |
|
|
cPKC activation signaling
|
cPKC_activation_signaling |
|
|
Activation and oligomerization of BAK protein [cell death]
|
TXPO_0003163 |
[Mitochondrial cytochrome c release can also be mediated by BAK and BAX which oligomerize and form a pore in the outer mitochondrial membrane, given the appropriate pro-apoptotic signals. BAX and BAK can also insert into the ER membrane to mediate Ca2+ release into the cytosol activating calpains., Reactome:R-HSA-114294.2, tBID binds to its mitochondrial partner BAK to release cytochrome c. Activated tBID results in an allosteric activation of BAK. This may induce its intramembranous oligomerization into a pore for cytochrome c efflux.] |
|
UDP-N-acetylglucosamine biosynthetic pathway
|
UDP-N-acetylglucosamine_biosynthetic_pathway |
|
|
kainate selective glutamate receptor activity
|
GO_0015277 |
|
|
glutamate-gated receptor activity
|
GO_0004970 |
|
|
Nef mediated downregulation of MHC class I complex cell surface expression
|
Nef_mediated_downregulation_of_MHC_class_I_complex_cell_surface_expression |
|
|
minus-strand DNA synthesis
|
minus-strand_DNA_synthesis |
|
