EC Number   |
Cofactor |
Reference |
|---|
   3.4.21.92 | ATP |
- |
710200, 734574 |
| 3.4.21.92 | ATP |
ATP dependent, for full proteolytic activity ClpP must associate with one of two related ATPase subunits, ClpA or ClpX, other nucleoside triphosphates cannot substitute for ATP |
653260 |
| 3.4.21.92 | ATP |
ATP has two functions in activating Clp protease: an allosteric role in promoting association between the subunits and a mechanistically undefined role in promoting continuous rounds of peptide bond cleavage. The functions may be separately fulfilled by the two ATP-binding sites identified by sequence analysis on each ClpA subunit |
29867 |
| 3.4.21.92 | ATP |
ATP hydrolysis is required for protein breakdown but not for hydrolysis of small peptides |
29864 |
| 3.4.21.92 | ATP |
cleavage of peptides of more than five amino acids residues by ClpP requires activation by ClpA and either ATP or a nonhydrolyzable analog of ATP such as ATPgammaS or 5'-adenylyl imidodiphosphate |
29858 |
| 3.4.21.92 | ATP |
composed of the proteolytic subunit ClpP and the regulatory ATPase |
653568 |
| 3.4.21.92 | ATP |
only ATP and dATP support alpha-casein degradation |
29858 |
| 3.4.21.92 | ATP |
proteolytic activity |
29860 |
| 3.4.21.92 | dATP |
only ATP and dATP support alpha-casein degradation |
29858 |
| 3.4.21.92 | dATP |
proteolytic activity |
29860 |
