Ann Taylor sandbox 20

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==Trypsin Mechanism==
==Trypsin Mechanism==
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Trypsin is a serine protease that is used in the digestive system. It cleaves on the C terminal side of arginine or lysine residues. This specificity is due to the presence of an aspartate residue at the bottom of the binding pocket.
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Trypsin is an enzyme that is part of a group of digestive enzymes that are classifies as serine proteases. Trypsin is responsible for the breakdown of the polypeptide backbone of positively charged proteins like Arg and Lys. This is accomplished by its structure. The active site of trypsin has an anionic Asp residual that can form ionic bonds with charged Arg and Lys . The active site also contains His, which is responsible for proton movement and polarization of hydrogens creating an environment conducive to catalysis. The Final key feature of the trypsin active site is called a oxyanion hole. This is a spot that, once the substrate is in its tetrahedral form, can form hydrogen bonds to stabilize the intermediate but when it is not the substrate is not in the correct orientation to form these stabilizing bonds. This is important because it increases the enzymes affinity for the transition state.
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Trypsin cleaves peptides via a covalent catalysis mechanism--that is, it forms a covalent intermediate between the substrate and itself, which is then cleaved by reaction with water. This structure shows the covalent interaction between trypsin and a small peptide, succinyl-ala-ala-pro-lys (pdb code [[2agg]]). The catalytic triad of Serine 195, Histidine 57 and Aspartic acid 102 are the key residues involved in the mechanism. After binding to the substrate, serine 195 nucleophilically attacks the carbonyl group of the cationic amino acid of the substrate. His57 and asp102 assist in the catalysis by increasing the nucleophilicity of the serine residue and by donating a proton to the leaving peptide group. This dual role of deprotonating serine and protonating the leaving peptide is facilitated by a shift in the position of the His 57 residue
{{STRUCTURE_2agg| PDB=2agg| SCENE= }}
{{STRUCTURE_2agg| PDB=2agg| SCENE= }}

Revision as of 14:50, 19 February 2010

Trypsin Mechanism

Trypsin is a serine protease that is used in the digestive system. It cleaves on the C terminal side of arginine or lysine residues. This specificity is due to the presence of an aspartate residue at the bottom of the binding pocket.


Trypsin cleaves peptides via a covalent catalysis mechanism--that is, it forms a covalent intermediate between the substrate and itself, which is then cleaved by reaction with water. This structure shows the covalent interaction between trypsin and a small peptide, succinyl-ala-ala-pro-lys (pdb code 2agg). The catalytic triad of Serine 195, Histidine 57 and Aspartic acid 102 are the key residues involved in the mechanism. After binding to the substrate, serine 195 nucleophilically attacks the carbonyl group of the cationic amino acid of the substrate. His57 and asp102 assist in the catalysis by increasing the nucleophilicity of the serine residue and by donating a proton to the leaving peptide group. This dual role of deprotonating serine and protonating the leaving peptide is facilitated by a shift in the position of the His 57 residue


PDB ID 2agg

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2agg, resolution 1.28Å ()
Ligands: ,
Non-Standard Residues:
Activity: Trypsin, with EC number 3.4.21.4
Related: 2age, 2agi, 2ah4
Resources: FirstGlance, OCA, RCSB, PDBsum
Coordinates: save as pdb, mmCIF, xml


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Ann Taylor

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