Three Redundant Synthetases Secure Redox-Active Pigment Production in the Basidiomycete Paxillus involutus
The symbiotic fungus Paxillus involutus serves a critical role in maintaining forest ecosystems, which are carbon sinks of global importance. P. involutus produces involutin and other 2,5-diarylcyclopentenone pigments that presumably assist in the oxidative degradation of lignocellulose via Fenton chemistry. Their precise biosynthetic pathways, however, remain obscure. Using a combination of biochemical, genetic, and transcriptomic analyses, in addition to stable-isotope labeling with synthetic precursors, we show that atromentin is the key intermediate. Atromentin is made by tridomain synthetases of high similarity: InvA1, InvA2, and InvA5. An inactive atromentin synthetase, InvA3, gained activity after a domain swap that replaced its native thioesterase domain with that of InvA5. The found degree of multiplex biosynthetic capacity is unprecedented with fungi, and highlights the great importance of the metabolite for the producer.
SEEK ID: https://data.chembiosys.de/publications/6
PubMed ID: 26496685
Projects: B05
Publication type: Not specified
Journal: Chem Biol
Citation:
Date Published: 27th Oct 2015
Registered Mode: Not specified
Views: 2044
Created: 27th Oct 2015 at 13:12
Last updated: 9th Feb 2023 at 08:34
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