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(→Mechanism of Trypsin (By: Brady Boles, Justin Miller, and Anthony Douglas)) |
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First, the substrate peptide binds to trypsin. Specifically, a lysine or arginine binds to the binding pocket's aspartate (Asp 189). | First, the substrate peptide binds to trypsin. Specifically, a lysine or arginine binds to the binding pocket's aspartate (Asp 189). | ||
| - | Made more nucleophilic by a base attack from His 57 (a residue itself stabilized via hydrogen bonding with Asp 102), Ser 195 attacks the scissile bond at the carbonyl forming a tetrahedral intermediate. These three residues (Asp 102, His 57, and Ser 195) form a conserved active site among serine proteases called the catalytic triad. <scene name='72/725339/ | + | Made more nucleophilic by a base attack from His 57 (a residue itself stabilized via hydrogen bonding with Asp 102), Ser 195 attacks the scissile bond at the carbonyl forming a tetrahedral intermediate. These three residues (Asp 102, His 57, and Ser 195) form a conserved active site among serine proteases called the catalytic triad. <scene name='72/725339/Ser_195_attack_peptide/1'>Catalytic Triad</scene> |
| - | His 57 donates its proton to the forming amine making it a good leaving group. Simultaneously, the carbonyl reforms by kicking off the amine. The ester formed between Ser 195 and the N-terminus is known as the acyl-enzyme intermediate. The C-terminus leaves the active site and water enters. | + | His 57 donates its proton to the forming amine making it a good leaving group. Simultaneously, the carbonyl reforms by kicking off the amine. The ester formed between Ser 195 and the N-terminus is known as the acyl-enzyme intermediate. The C-terminus leaves the active site and water enters. |
As before, His 57 again attacks a proton (this time from water) supported by Asp 102. The more nucleophilic water attacks the ester forming a second tetrahedral intermediate. | As before, His 57 again attacks a proton (this time from water) supported by Asp 102. The more nucleophilic water attacks the ester forming a second tetrahedral intermediate. | ||
Revision as of 01:19, 19 February 2016
Mechanism of Trypsin (By: Brady Boles, Justin Miller, and Anthony Douglas)
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References
1.↑ Radisky ES, Lee JM, Lu CJ, Koshland DE Jr. Insights into the serine protease mechanism from atomic resolution structures of trypsin reaction intermediates. Proc Natl Acad Sci U S A. 2006 May 2;103(18):6835-40. Epub 2006 Apr 24. PMID:16636277
