Litcius/Paper detail

Chemical warfare between fungus-growing ants and their pathogens

Sibyl F. D. Batey, Claudio Greco, Matthew I. Hutchings, Barrie Wilkinson

2020Current Opinion in Chemical Biology52 citationsDOIOpen Access PDF

Abstract

Fungus-growing attine ants are under constant threat from fungal pathogens such as the specialized mycoparasite Escovopsis, which uses combined physical and chemical attack strategies to prey on the fungal gardens of the ants. In defence, some species assemble protective microbiomes on their exoskeletons that contain antimicrobial-producing Actinobacteria. Underlying this network of mutualistic and antagonistic interactions are an array of chemical signals. Escovopsis weberi produces the shearinine terpene-indole alkaloids, which affect ant behaviour, diketopiperazines to combat defensive bacteria, and other small molecules that inhibit the fungal cultivar. Pseudonocardia and Streptomyces mutualist bacteria produce depsipeptide and polyene macrolide antifungals active against Escovopsis spp. The ant nest metabolome is further complicated by competition between defensive bacteria, which produce antibacterials active against even closely related species.

Topics & Concepts

BiologyFungusActinobacteriaAttaSymbiosisChemical defenseBacteriaMicrobiologyBotanyHymenopteraGenetics16S ribosomal RNAHerbivoreInsect and Arachnid Ecology and BehaviorInsect and Pesticide ResearchInsect symbiosis and bacterial influences