RESUMO
Peppermint (Mentha × piperita L.) is a flavoring additive used worldwide, and Trichoderma species are beneficial fungi that can stimulate growth and disease resistance of these plants. Here the growth conditions and metabolic processes of essential oil (EO) biosynthesis in response to inoculation with Trichoderma viride Tv-1511 were investigated. The results showed that T. viride Tv-1511 was able to colonize roots of peppermint to promote its growth and photosynthetic activity and induce higher levels of glandular trichomes and elevated EO yield and composition. GC-MS analysis showed that T. viride Tv-1511-inoculated peppermint produced higher concentrations of menthone, menthol, and pulegone and lower concentrations of menthofuran than un-inoculated seedlings, and qRT-PCR showed that T. viride Tv-1511 inoculation induced upregulation of Pr (pulegone reductase encoding gene) and Mr (menthone reductase encoding gene), whereas it led to the downregulation of Mfs (menthofuran synthase encoding gene). Furthermore, a mitogen-activated protein kinase (MAPK) in peppermint, which was determined to be an analog of Arabidopsis MPK6 protein, was found to be responsible for the modulation of EO metabolism at the transcriptional level and for enzymatic activation in the T. viride Tv-1511-inoculated peppermint. Notably, NADPH oxidase-dependent reactive oxygen species (ROS) production played vital roles in the root colonization of T. viride Tv-1511 and was also involved in the induction of MAPK activation. These data showed the beneficial effects of T. viride Tv-1511 on the seedling growth and EO yield of peppermint, and they elucidated that T. viride Tv-1511 improved the quantity and quality of EOs by regulating the genes that encode the enzymes involved in EO metabolism through a potential MAPK-mediated signaling pathways.