Matsuda_2016_J.Am.Chem.Soc_138_12671

Reference

Title : Discovery of Key Dioxygenases that Diverged the Paraherquonin and Acetoxydehydroaustin Pathways in Penicillium brasilianum - Matsuda_2016_J.Am.Chem.Soc_138_12671
Author(s) : Matsuda Y , Iwabuchi T , Fujimoto T , Awakawa T , Nakashima Y , Mori T , Zhang H , Hayashi F , Abe I
Ref : Journal of the American Chemical Society , 138 :12671 , 2016
Abstract :

Paraherquonin (1), a fungal meroterpenoid produced by Penicillium brasilianum NBRC 6234, possesses a unique, highly congested hexacyclic molecular architecture. Here we identified the biosynthetic gene cluster of 1 (the prh cluster) and elucidated the pathway up to berkeleydione (2), which serves as the key intermediate for the biosynthesis of 1 as well as many other meroterpenoids. Interestingly, the nonheme iron and alpha-ketoglutarate-dependent dioxygenase PrhA constructs the cycloheptadiene moiety to afford 2 from preaustinoid A1 (6), probably via the homoallyl-homoallyl radical rearrangement. Additionally, another fungal strain, P. brasilianum MG11, which produces acetoxydehydroaustin instead of 1, was found to have a gene cluster nearly identical to the prh cluster. The dioxygenase encoded by the cluster shares 92% sequence identity with PrhA, and also accepts 6 but produces preaustinoid A3 (17) with a spiro-lactone system, generating a diverging point for the two different meroterpenoid pathways in the same species.

PubMedSearch : Matsuda_2016_J.Am.Chem.Soc_138_12671
PubMedID: 27602587
Gene_locus related to this paper: penbi-ausa , penbi-prhl

Related information

Gene_locus penbi-ausa    penbi-prhl

Citations formats

Matsuda Y, Iwabuchi T, Fujimoto T, Awakawa T, Nakashima Y, Mori T, Zhang H, Hayashi F, Abe I (2016)
Discovery of Key Dioxygenases that Diverged the Paraherquonin and Acetoxydehydroaustin Pathways in Penicillium brasilianum
Journal of the American Chemical Society 138 :12671

Matsuda Y, Iwabuchi T, Fujimoto T, Awakawa T, Nakashima Y, Mori T, Zhang H, Hayashi F, Abe I (2016)
Journal of the American Chemical Society 138 :12671