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Antibiotic origami: selective formation of spirotetronates in abyssomicin biosynthesis.

Sbusisiwe Z MbathaCatherine R BackAndrew J DevineHannah M MullinerSamuel T JohnsHarry LewinKaiman A CheungKatja ZornJames E M StachMartin A HayesMarc W Van der KampPaul R RaceChristine L Willis
Published in: Chemical science (2024)
The abyssomicins are a structurally intriguing family of bioactive natural products that include compounds with potent antibacterial, antitumour and antiviral activities. The biosynthesis of the characteristic abyssomicin spirotetronate core occurs via an enzyme-catalysed intramolecular Diels-Alder reaction, which proceeds via one of two distinct stereochemical pathways to generate products differing in configuration at the C15 spirocentre. Using the purified spirotetronate cyclases AbyU (from abyssomicin C/atrop-abyssomicin C biosynthesis) and AbmU (from abyssomicin 2/neoabyssomicin biosynthesis), in combination with synthetic substrate analogues, here we show that stereoselectivity in the spirotetronate-forming [4 + 2]-cycloaddition is controlled by a combination of factors attributable to both the enzyme and substrate. Furthermore, an achiral substrate was enzymatically cyclised to a single enantiomer of a spirocyclic product. X-ray crystal structures, molecular dynamics simulations, and assessment of substrate binding affinity and reactivity in both AbyU and AbmU establish the molecular determinants of stereochemical control in this important class of biocatalysts.
Keyphrases
  • molecular dynamics simulations
  • cell wall
  • molecular docking
  • amino acid
  • structural basis
  • high resolution
  • magnetic resonance
  • computed tomography
  • dna binding
  • silver nanoparticles