EC Number |
Natural Substrates |
---|
3.4.21.92 | more |
- |
3.4.21.92 | central competence regulator sigmax + H2O |
adaptor protein MecA ultimately targets sigmaX for its degradation by the ClpCP protease in an ATP-dependent manner |
3.4.21.92 | more |
ClpP associates with ClpX or ClpA to form the AAA+ ClpXP or ClpAP proteases |
3.4.21.92 | more |
ClpP binds to AAA+ ATPase/unfoldase, ClpA or ClpX |
3.4.21.92 | more |
ClpP is present in a wide range of prokaryotic and eukaryotic cells and is highly conserved in plant chloroplasts |
3.4.21.92 | more |
ClpP linked to many activities, including sporulation, cell competence, stress tolerance and regulation of gene expression |
3.4.21.92 | more |
ClpP requires association with ClpA or ClpX to unfold and thread protein substrates through the axial pore into the inner chamber where degradation occurs |
3.4.21.92 | more |
ClpXP appears to be involved in plasmid maintenance and in phage Mu virulence |
3.4.21.92 | more |
enzyme complex ClpPRS consisting of five ClpP protease molecules, four nonproteolytic ClpR molecules, and two associated ClpS molecules, is central to chloroplast biogenesis, thylakoid protein homeostasis, and plant development |
3.4.21.92 | more |
enzyme is required for release of autolysin A and pneumolysin. In vivo, it is required for growth of pneumococcus in the lungs and blood in a murine model of disease |