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PDBsum entry 5o3v
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References listed in PDB file
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Key reference
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Title
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Characterization of the fast and promiscuous macrocyclase from plant pcy1 enables the use of simple substrates.
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Authors
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H.Ludewig,
C.M.Czekster,
E.Oueis,
E.S.Munday,
M.Arshad,
S.A.Synowsky,
A.F.Bent,
J.H.Naismith.
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Ref.
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ACS Chem Biol, 2018,
13,
801-811.
[DOI no: ]
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PubMed id
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Abstract
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Cyclic ribosomally derived peptides possess diverse bioactivities and are
currently of major interest in drug development. However, it can be chemically
challenging to synthesize these molecules, hindering the diversification and
testing of cyclic peptide leads. Enzymes used in vitro offer a solution to this;
however peptide macrocyclization remains the bottleneck. PCY1, involved in the
biosynthesis of plant orbitides, belongs to the class of prolyl oligopeptidases
and natively displays substrate promiscuity. PCY1 is a promising candidate for
in vitro utilization, but its substrates require an 11 to 16 residue C-terminal
recognition tail. We have characterized PCY1 both kinetically and structurally
with multiple substrate complexes revealing the molecular basis of recognition
and catalysis. Using these insights, we have identified a three residue
C-terminal extension that replaces the natural recognition tail permitting PCY1
to operate on synthetic substrates. We demonstrate that PCY1 can macrocyclize a
variety of substrates with this short tail, including unnatural amino acids and
nonamino acids, highlighting PCY1's potential in biocatalysis.
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