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Structural Basis for the Prenylation Reaction of Carbazole-Containing Natural Products Catalyzed by Squalene Synthase-Like Enzymes.

Ryuhei NagataHironori SuemuneMasaya KobayashiTetsuro ShinadaTeppei KawaharaMakoto NishiyamaTomoya HinoYusuke SatoTomohisa KuzuyamaShingo Nagano
Published in: Angewandte Chemie (International ed. in English) (2022)
Some enzymes annotated as squalene synthase catalyze the prenylation of carbazole-3,4-quinone-containing substrates in bacterial secondary metabolism. Their reaction mechanisms remain unclear because of their low sequence similarity to well-characterized aromatic substrate prenyltransferases (PTs). We determined the crystal structures of the carbazole PTs, and these revealed that the overall structure is well superposed on those of squalene synthases. In contrast, the stacking interaction between the prenyl donor and acceptor substrates resembles those observed in aromatic substrate PTs. Structural and mutational analyses suggest that the Ile and Asp residues are essential for the hydrophobic and hydrophilic interactions with the carbazole-3,4-quinone moiety of the prenyl acceptor, respectively, and a deprotonation mechanism of an intermediary σ-complex involving a catalytic triad is proposed. Our results provide a structural basis for a new subclass of aromatic substrate PTs.
Keyphrases
  • structural basis
  • amino acid
  • magnetic resonance
  • energy transfer
  • liquid chromatography
  • single cell
  • mass spectrometry
  • room temperature
  • computed tomography
  • electron transfer