In vitro kinetic study of the squalestatin tetraketide synthase dehydratase reveals the stereochemical course of a fungal highly reducing polyketide synthase

In vitro kinetic study of the squalestatin tetraketide synthase dehydratase reveals the stereochemical course of a fungal highly reducing polyketide synthase

Six potential diketide substrates for the squalestatin tetraketide synthase (SQTKS) dehydratase (DH) domain were synthesised as N-acetyl cysteamine thiolesters (SNAC) and tested in kinetic assays as substrates with an isolated DH domain. 3R-3-hydroxybutyryl SNAC 3R-16 was turned over by the enzyme,...

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Veröffentlicht in:Chemical communications (Cambridge, England) England), 2017, Vol.53 (10), p.1727-1730
Hauptverfasser: Liddle, Emma, Scott, Alan, Han, Li-Chen, Ivison, David, Simpson, Thomas J, Willis, Christine L, Cox, Russell J
Format: Artikel
Sprache:eng
Schlagworte:
Bridged Bicyclo Compounds, Heterocyclic - chemistry
Bridged Bicyclo Compounds, Heterocyclic - metabolism
Cyclohexanones - chemistry
Cyclohexanones - metabolism
Cysteamine
Dehydration
Disaccharides - chemistry
Disaccharides - metabolism
Enzymes
Fatty acids
Fungi
Fungi - enzymology
Hydro-Lyases - metabolism
Kinetics
Molecular Structure
Polyketide Synthases - metabolism
Stereoisomerism
Substrates
Synthesis
Tricarboxylic Acids - chemistry
Tricarboxylic Acids - metabolism
Vertebrates
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Zusammenfassung:Six potential diketide substrates for the squalestatin tetraketide synthase (SQTKS) dehydratase (DH) domain were synthesised as N-acetyl cysteamine thiolesters (SNAC) and tested in kinetic assays as substrates with an isolated DH domain. 3R-3-hydroxybutyryl SNAC 3R-16 was turned over by the enzyme, but its enantiomer was not. Of the four 2-methyl substrates only 2R,3R-2-methyl-3-hydroxybutyryl SNAC 2R,3R-8 was a substrate. Combined with stereochemical information from the isolated SQTKS enoyl reductase (ER) domain, our results provide a near complete stereochemical description of the first cycle of beta-modification reactions of a fungal highly reducing polyketide synthase (HR-PKS). The results emphasise the close relationship between fungal HR-PKS and vertebrate fatty acid synthases (vFAS).
ISSN:1359-7345
1364-548X
DOI:10.1039/c6cc10172k