| Title : Catalysis of serine oligopeptidases is controlled by a gating filter mechanism - Fulop_2000_EMBO.Rep_1_277 |
| Author(s) : Fulop V , Szeltner Z , Polgar L |
| Ref : EMBO Rep , 1 :277 , 2000 |
|
Abstract :
Proteases have a variety of strategies for selecting substrates in order to prevent uncontrolled protein degradation. A recent crystal structure determination of prolyl oligopeptidase has suggested a way for substrate selection involving an unclosed seven-bladed beta-propeller domain. We have engineered a disulfide bond between the first and seventh blades of the propeller, which resulted in the loss of enzymatic activity. These results provided direct evidence for a novel strategy of regulation in which oscillating propeller blades act as a gating filter during catalysis, letting small peptide substrates into the active site while excluding large proteins to prevent accidental proteolysis. |
| PubMedSearch : Fulop_2000_EMBO.Rep_1_277 |
| PubMedID: 11256612 |
| Gene_locus related to this paper: pig-ppce |
| Mutation | C255T\/Q397C\/K684M_pig-ppce |
| Gene_locus | pig-ppce |
| Family | Peptidase_S9 S9N_PPCE_Peptidase_S9 S9N_PREPL_Peptidase_S9 |
| Structure | 1E5T |
Fulop V, Szeltner Z, Polgar L (2000)
Catalysis of serine oligopeptidases is controlled by a gating filter mechanism
EMBO Rep
1 :277
Fulop V, Szeltner Z, Polgar L (2000)
EMBO Rep
1 :277