Insights into Pyrroindomycin Biosynthesis Reveal a Uniform Paradigm for Tetramate/Tetronate Formation

Insights into Pyrroindomycin Biosynthesis Reveal a Uniform Paradigm for Tetramate/Tetronate Formation

The natural products pyrroindomycins (PYRs), active against various drug-resistant pathogens, possess a characteristic, cyclohexene ring spiro-linked tetramate moiety. In this study, investigation into PYR biosynthesis revealed two new proteins, both of which, phylogenetically distinct from but func...

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Veröffentlicht in:Journal of the American Chemical Society 2012-10, Vol.134 (42), p.17342-17345
Hauptverfasser: Wu, Qiongqiong, Wu, Zhuhua, Qu, Xudong, Liu, Wen
Format: Artikel
Sprache:eng
Schlagworte:
Biocatalysis
Biological Products - chemistry
Biological Products - metabolism
Cyclization
Lactams, Macrocyclic - chemistry
Lactams, Macrocyclic - metabolism
Macrolides - chemistry
Macrolides - metabolism
Molecular Conformation
Peptide Synthases - genetics
Peptide Synthases - metabolism
Polyketide Synthases - genetics
Polyketide Synthases - metabolism
Stereoisomerism
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Zusammenfassung:The natural products pyrroindomycins (PYRs), active against various drug-resistant pathogens, possess a characteristic, cyclohexene ring spiro-linked tetramate moiety. In this study, investigation into PYR biosynthesis revealed two new proteins, both of which, phylogenetically distinct from but functionally substitutable to each other in vivo, individually catalyze a Dieckmann cyclization in vitro for converting an N-acetoacetyl-l-alanyl thioester into a tetramate. Their counterparts are commonly present in the biosynthetic pathways of spiro and polyether tetronates, supporting a uniform paradigm for tetronate/tetramate formation, which features an enzymatic way to generate the C–X (X = O or N) bond first and the C–C bond next in building of the 5-membered heterocycle.
ISSN:0002-7863
1520-5126
DOI:10.1021/ja304829g