EC Number |
Natural Substrates |
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3.4.21.26 | more |
the enzyme plays a role in the metabolism of proline-containing neuropeptides which have been suggested to be involved in learning and memory processes |
3.4.21.26 | more |
the specificity for post-proline bonds suggests that the enzyme may play a central role in the hydrolysis of casein-derived bitter peptides, such as beta-casein(f193-209) |
3.4.21.26 | more |
tissue-dependent peptide hydrolysis evoked by prolyl endopeptidase activity is involved in the water-electrolyte homeostasis |
3.4.21.26 | more |
enzyme regulation, overview |
3.4.21.26 | more |
cellular functions, overview |
3.4.21.26 | more |
cellular functions, overview, POP may regulate phosphoinositide signaling, overview |
3.4.21.26 | more |
cellular functions, overview, POP may regulate phosphoinositide signaling, overview, the enzyme is involved in Alzheimer's disease with enzyme inhibition leading to a reduction of beta-amyloid peptide, overview |
3.4.21.26 | more |
cellular functions, overview, POP may regulate phosphoinositide signaling, overview, the enzyme is involved in neuronal degeneration and Alzheimer's disease with enzyme inhibition leading to a reduction of beta-amyloid peptide, overview |
3.4.21.26 | more |
enzyme inhibition leads to inhibition of lithium effects, the loss of enzyme activity evokes a 4fold increase in the inositol-3-phosphate concentration counteracting the Li+ ions, enzyme regulation, overview |
3.4.21.26 | more |
enzyme inhibitors are able to prevent the in vitro invasion of rodent muscle cells by trypomastigotes |