EC Number |
Natural Substrates |
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3.4.22.B6 | more |
the enzyme is involved in lethal N-methyl-D-aspartate-induced collapse and F-actib loss of dendritic spines, sub-lethal ecitosis injury to dendrites can elicit loss or shrinkage of dendritic spines, specific enzyme inhibitors attenuate the effect, overview |
3.4.22.B6 | more |
the enzyme is involved in the inhibition of antigen presentation by degrading MHC class II molecules in the parasiophorus vacuole |
3.4.22.B6 | more |
the enzyme is involved in yolk protein degradation during embryogenesis |
3.4.22.B6 | more |
the enzyme might be involved in activation of TGF-beta, a suppressive cytokine in Leishmania infection |
3.4.22.B6 | more |
the enzyme might be involved in activation of TGF-beta, a suppressive cytokine in Leishmania infection, the enzyme is involved in the inhibition of antigen presentation by degrading MHC class II molecules in the parasiophorus vacuole |
3.4.22.B6 | more |
CmSvp may contribute to insect counter-defense, in part by inhibiting CmCatB expression under normal growth conditions, but releasing the inhibition when insects are challenged by dietary protease inhibitors |
3.4.22.B6 | more |
strongly induces cathepsin B-like cysteine protease 1c transcripts when fed diet containing a soybean cysteine protease inhibitor soyacystatin N. The scN-activated and developmentally regulated CmCatB1 expression pattern suggests it may have a unique function in insect counter-defence against antinutritional factors. CmCatB1 confers inhibitor-insensitive enzymatic activity to cowpea bruchids, which is crucial for insect survival when challenged by dietary protease inhibitors |
3.4.22.B6 | myristoylated-alanine-rich C-kinase + H2O |
specific degradation, the enzyme degrades the protein involved in actin cytoskeleton regulation |