EC Number |
General Information |
Reference |
---|
3.4.19.1 | evolution |
acylaminoacyl peptidase is a member of the prolyl oligopeptidase protein family |
-, 752387 |
3.4.19.1 | evolution |
enzyme AAP belongs to alpha/beta-hydrolase enzyme superfamily |
-, 754201 |
3.4.19.1 | evolution |
the enzyme belongs to a class of serine-type protease belonging to the prolyl oligopeptidase (POP) family. The members of the POP family are involved in numerous metabolic processes |
755379 |
3.4.19.1 | evolution |
the enzyme belongs to a serine peptidase family |
-, 752584 |
3.4.19.1 | evolution |
the enzyme belongs to the prolyl oligopeptidase family of serine proteases |
753902 |
3.4.19.1 | malfunction |
overexpression of AARE/OPH exhibits no apparent effect on the level of oxidized proteins because wild types have inherently high AARE/OPH activity |
732661 |
3.4.19.1 | malfunction |
the AtAARE-suppressed plants using RNAi became susceptible to oxidative stress corresponding to enhanced accumulation of oxidized proteins |
732661 |
3.4.19.1 | malfunction |
transgenic overexpression of APH results in crystallin cleavage, impaired lens development, and cataract |
732175 |
3.4.19.1 | metabolism |
the existence of the acylamino acid-releasing enzyme in archaea suggests that the mechanisms of protein degradation or initiation of protein synthesis or both in archaea may be similar to those in eukaryotes |
745261 |
3.4.19.1 | more |
enzyme structure modeling and comparison with the enzyme structure from Aeropyrum pernix, overview. Both enzymes share a high structural homology |
-, 752694 |