Biomimetic Catalysis of Intermodular Aminoacyl Transfer

Intermodular aminoacyl transfer is the fundamental bond-forming reaction in the biosynthesis of polypeptides by ribosomes and nonribosomal peptide synthetases (NRPS). Here we report the design and functional characterizations of short synthetic α-helical peptides that mimic the aminoacyl loading and...

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Published in	Journal of the American Chemical Society Vol. 129; no. 4; pp. 748 - 749
Main Authors	Wilcoxen, Keith M, Leman, Luke J, Weinberger, Dana A, Huang, Zheng-Zheng, Ghadiri, M. Reza
Format	Journal Article
Language	English
Published	United States American Chemical Society 31.01.2007
Subjects	Aminoacylation Biomimetics - methods Catalysis Peptide Biosynthesis, Nucleic Acid-Independent Peptide Synthases - chemistry Peptides - chemistry
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Abstract	Intermodular aminoacyl transfer is the fundamental bond-forming reaction in the biosynthesis of polypeptides by ribosomes and nonribosomal peptide synthetases (NRPS). Here we report the design and functional characterizations of short synthetic α-helical peptides that mimic the aminoacyl loading and intermodular aminoacyl transfer steps of NRPS with aminolysis rate enhancements in neutral aqueous solutions of up to 5400-fold (k cat/k uncat). The catalysts operate as noncovalently associated peptide assemblies with composite active sites fashioned at the interface between helical subunits. Following the substrate loading at the active site cysteine, the juxtaposition of the resulting aminoacyl thiolester and the nucleophilic amine of the acyl acceptor moiety gives rise to high effective concentrations (up to 54 M) that facilitate interhelical aminoacyl transfer with rates typically exceeding 10-4 sec-1. Moreover, studies based on homo- and heteromeric assemblies, active site amino acid substitutions, kinetic analysis, and reaction modeling indicate that the de novo designed supramolecular catalysts reported herein exhibit some of the basic characteristics of natural enzymes, including precise positioning and pK a modulation of active site residues, covalent catalysis, and multiple product turnovers.
AbstractList	Intermodular aminoacyl transfer is the fundamental bond forming reaction in the biosynthesis of polypeptides by ribosomes and nonribosomal peptide synthetases (NRPS). Here we report the design and functional characterizations of short synthetic α-helical peptides that mimic the aminoacyl loading and intermodular aminoacyl transfer steps of NRPS with aminolysis rate enhancements in neutral aqueous solutions of up to 5400-fold ( k cat / k uncat ). The catalysts operate as noncovalently associated peptide assemblies with composite active sites fashioned at the interface between helical subunits. Following the substrate loading at the active site cysteine, the juxtaposition of the resulting aminoacyl thiolester and the nucleophilic amine of the acyl acceptor moiety gives rise to high effective concentrations (up to 54 M) that facilitate interhelical aminoacyl transfer with rates typically exceeding 10 −4 sec −1 . Moreover, studies based on homo- and heteromeric assemblies, active site amino acid substitutions, kinetic analysis, and reaction modeling indicate that the de novo designed supramolecular catalysts reported herein exhibit some of the basic characteristics of natural enzymes, including precise positioning and p K a modulation of active site residues, covalent catalysis, and multiple product turnovers. Intermodular aminoacyl transfer is the fundamental bond-forming reaction in the biosynthesis of polypeptides by ribosomes and nonribosomal peptide synthetases (NRPS). Here we report the design and functional characterizations of short synthetic α-helical peptides that mimic the aminoacyl loading and intermodular aminoacyl transfer steps of NRPS with aminolysis rate enhancements in neutral aqueous solutions of up to 5400-fold (k cat/k uncat). The catalysts operate as noncovalently associated peptide assemblies with composite active sites fashioned at the interface between helical subunits. Following the substrate loading at the active site cysteine, the juxtaposition of the resulting aminoacyl thiolester and the nucleophilic amine of the acyl acceptor moiety gives rise to high effective concentrations (up to 54 M) that facilitate interhelical aminoacyl transfer with rates typically exceeding 10-4 sec-1. Moreover, studies based on homo- and heteromeric assemblies, active site amino acid substitutions, kinetic analysis, and reaction modeling indicate that the de novo designed supramolecular catalysts reported herein exhibit some of the basic characteristics of natural enzymes, including precise positioning and pK a modulation of active site residues, covalent catalysis, and multiple product turnovers.
Author	Huang, Zheng-Zheng Weinberger, Dana A Leman, Luke J Ghadiri, M. Reza Wilcoxen, Keith M
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Snippet	Intermodular aminoacyl transfer is the fundamental bond-forming reaction in the biosynthesis of polypeptides by ribosomes and nonribosomal peptide synthetases... Intermodular aminoacyl transfer is the fundamental bond forming reaction in the biosynthesis of polypeptides by ribosomes and nonribosomal peptide synthetases...
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SubjectTerms	Aminoacylation Biomimetics - methods Catalysis Peptide Biosynthesis, Nucleic Acid-Independent Peptide Synthases - chemistry Peptides - chemistry
Title	Biomimetic Catalysis of Intermodular Aminoacyl Transfer
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