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Genetically programmed cell-based synthesis of non-natural peptide and depsipeptide macrocycles

Martin Spinck, Carlos Piedrafita, Wesley E. Robertson, Thomas Elliott, Daniele Cervettini, Daniel de la Torre, Jason W. Chin

2022Nature Chemistry62 citationsDOIOpen Access PDF

Abstract

The direct genetically encoded cell-based synthesis of non-natural peptide and depsipeptide macrocycles is an outstanding challenge. Here we programme the encoded synthesis of 25 diverse non-natural macrocyclic peptides, each containing two non-canonical amino acids, in Syn61Δ3-derived cells; these cells contain a synthetic Escherichia coli genome in which the annotated occurrences of two sense codons and a stop codon, and the cognate transfer RNAs (tRNAs) and release factor that normally decode these codons, have been removed. We further demonstrate that pyrrolysyl-tRNA synthetase/tRNA pairs from distinct classes can be engineered to direct the co-translational incorporation of diverse alpha hydroxy acids, with both aliphatic and aromatic side chains. We define 49 engineered mutually orthogonal pairs that recognize distinct non-canonical amino acids or alpha hydroxy acids and decode distinct codons. Finally, we combine our advances to programme Syn61Δ3-derived cells for the encoded synthesis of 12 diverse non-natural depsipeptide macrocycles, which contain two non-canonical side chains and either one or two ester bonds.

Topics & Concepts

DepsipeptideChemistryAmino acidTransfer RNAStop codonPeptidePeptide synthesisCombinatorial chemistryStereochemistryBiochemistryGeneRNARNA and protein synthesis mechanismsChemical Synthesis and AnalysisAntimicrobial Peptides and Activities
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