Peer-Reviewed Journal Details
Mandatory Fields
Sheridan, KJ;Dolan, SK;Doyle, S
2015
January
Frontiers in Microbiology
Endogenous cross-talk of fungal metabolites
Published
12 ()
Optional Fields
NONRIBOSOMAL PEPTIDE SYNTHETASE PATHOGEN ASPERGILLUS-FUMIGATUS BIOSYNTHETIC GENE-CLUSTER ATP-CITRATE LYASE OXIDATIVE-STRESS GLIOTOXIN BIOSYNTHESIS FUSARIUM-GRAMINEARUM SECONDARY METABOLISM ALKALOID BIOSYNTHESIS MULTICYCLIC SCAFFOLDS
5
Non-ribosomal peptide (NRP) synthesis in fungi requires a ready supply of proteogenic and non-proteogenic amino acids which are subsequently incorporated into the nascent NRP via a thiotemplate mechanism catalyzed by NRP synthetases. Substrate amino acids can be modified prior to or during incorporation into the NRP or following incorporation into an early stage amino acid-containing biosynthetic intermediate. These post-incorporation modifications involve a range of additional enzymatic activities including but not exclusively, monooxygenases, methyltransferases, epimerases, oxidoreductases, and glutathione S-transferases which are essential to effect biosynthesis of the final NRP. Likewise, polyketide biosynthesis is directly by polyketide synthase megaenzymes and cluster-encoded ancillary decorating enzymes. Additionally, a suite of additional primary metabolites, for example: coenzyme A (CoA), acetyl CoA, S-adenosylmethionine, glutathione (GSH), NADPH, malonyl CoA, and molecular oxygen, amongst others are required for NRP and polyketide synthesis (PKS). Clearly these processes must involve exquisite orchestration to facilitate the simultaneous biosynthesis of different types of NRPs, polyketides, and related metabolites requiring identical or similar biosynthetic precursors or co-factors. Moreover, the near identical structures of many natural products within a given family (e.g., ergot alkaloids), along with localization to similar regions within fungi (e.g., conidia) suggests that cross-talk may exist, in terms of biosynthesis and functionality. Finally, we speculate if certain biosynthetic steps involved in NRP and PKS play a role in cellular protection or environmental adaptation, and wonder if these enzymatic reactions are of equivalent importance to the actual biosynthesis of the final metabolite.
LAUSANNE
1664-302X
10.3389/fmicb.2014.00732
Grant Details