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Probing Mechanisms of Peptide Bond Formation

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Koga chemically modified the crown ether to contain 2 thiol (SH) groups to mimic ... Crown ether model demonstrates concepts of: proximity of reactive functionalities ... – PowerPoint PPT presentation

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Title: Probing Mechanisms of Peptide Bond Formation


1
Probing Mechanisms of Peptide Bond Formation
Catalysis Using Models
  • Model of Koga
  • Uses molecular recognition by a crown ether to
    bind a model of the substrate
  • Crown ethers

2
  • Koga chemically modified the crown ether to
    contain 2 thiol (SH) groups to mimic reactions on
    NRPS

3
Molecular Recognition
good lv group (monitored by UV)
4
Intramolecular trans-acylation reactive
thioester becomes stable amide
  • Crown ether model demonstrates concepts of
  • proximity of reactive functionalities
  • molecular recognition

5
  • We have examined peptide bond formation on the
    ribosome
  • Catalytic mechanism
  • The ribosome workbench
  • rRNA
  • Substrate-assisted catalysis
  • What about breaking the peptide bond (i.e.
    proteolysis)?
  • Catalyzed by proteases and/or peptidases

6
Chymotrypsin
  • Part of the serine proteases (trypsin, elastase,
    etc)
  • These enzymes often work in concert
  • Serine residue in active site acts as nucleophile
  • Chymotrypsin cuts peptide bonds at aromatic
    residues

7
  1. Substrate (peptide) binds to form complex
  1. 1st tetrahedral intermediate
  1. Acyl-enzyme

8
  1. 2nd tetrahedral intermediate

4) H2O attacks
6) Release from enzyme
9
Test of Mechanism?
  • How do we know Ser is the original nucleophile?
  • Use irreversible inhibitor to react with Ser
  • Ser 195 is more nucleophilic than other serine
    residues
  • Nearby His 57 Asp 102 are important for
    catalytic activity. How?
  • Methylate His nitrogen ? 103 decrease in activity!
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