v5.1.0.3
Glycine data from LIS
Type | Active_site |
Description | Thiol (cysteine) proteases (EC 3.4.22.-) [ ] are a family of proteolytic enzymes which contain an active site cysteine. Catalysis proceeds through a thioester intermediate and is facilitated by a nearby histidine side chain; an asparagine completes the essential catalytic triad.Cysteine peptidases have characteristic molecular topologies, which can be seen not only in their three-dimensional structures, but commonly also in the two-dimensional structures. These are peptidases in which the nucleophile is the sulphydryl group of a cysteine residue. Cysteine proteases are divided into clans (proteins which are evolutionary related), and further sub-divided into families, on the basis of the architecture of their catalytic dyad (cysteine-histidene) or triad [ ].Modification of the catalytic triad, especially of its first amino acid (cysteine), has been postulated as a suitable target for a chemical modulation of enzyme function. This is the case for silicateins, where the cysteine residue has been replaced by a serine [ ]. Silicateins represent a group of enzymes possessing bi-functional activity; in addition to the silica-condensing activity, they possess a proteolytic (cathepsin-like) activity [].The sequences around the three active site residues are well conserved. This entry represents the histidine active site. The catalytic triad consists of this entry, and . This catalytic triad detects mainly proteases of the C1 family, including papain and several cathepsins. |
Short Name | Pept_his_AS |