The bZIP transcription factor ATF1 regulates blue light and oxidative stress responses in Trichoderma guizhouense

MSB2-activated pheromone pathway regulates fungal plasma membrane integrity in response to herbicide adjuvant

Glyphosate-based herbicides (GBHs) are used worldwide for weed management. However, GBHs pose a threat to soil fungal community, although fungi can degrade and use glyphosate as a nutrient source. How fungi respond to GBHs remains enigmatic. Here, we found that, not as in plants, the commercial GBH Roundup does not target the 5-enolpyruvyl-shikimate-3-phosphate synthase in the soil-derived fungus Trichoderma guizhouense, whereas it impairs fungal growth. We demonstrate that the herbicide adjuvant Triton CG-110 is more toxic to fungal cells than pure glyphosate. It limits nitrogen uptake, which induces the expression of proteinase YPS1 to catalyze the shedding of the MSB2 extracellular domain from the plasma membrane, leading to the activation of the MAPK TMK1 pheromone pathway. The downstream B2H2-type transcription factor STE12 directly regulates ergosterol biosynthesis, affecting membrane fluidity and stability. To our knowledge, this is the first evidence that the pheromone pathway is implicated in ergosterol biosynthesis and plasma membrane integrity.

Chromatin accessibility profile and the role of PeAtf1 transcription factor in the postharvest pathogen Penicillium expansum

Gene transcription is governed by a complex regulatory system involving changes in chromatin structure, the action of transcription factors, and the activation of cis-regulatory elements. Postharvest fruits are threatened by Penicillium expansum, a leading causal agent of blue mold disease and one of the most economically significant postharvest pathogens worldwide. However, information on its transcription regulatory mechanism is lagging. Here, we conducted an assay for transposase accessible chromatin sequencing (ATAC-seq) for P. expansum during vegetative growth and infection phase and then studied the function of a basic leucine zipper (bZIP) transcription factor PeAtf1. Results highlighted the role of promoter regions in gene transcription and the significant difference in P. expansum between these two phases. Six footprint-supported cis-regulatory elements of active transcription factors were obtained and analyzed. We then identified a homolog of the bZIP regulator Atf1, PeAtf1, and found it positively regulated vegetative growth, reproduction, and osmotic stress response in P. expansum. Furthermore, PeAtf1 deletion enhanced the fungus's tolerance to oxidative, cell wall, and membrane stresses, which might contribute to the virulence of deletion mutants in apple fruits, leading to similar pathogenicity between mutants and the wild type. Overall, this study provides new insights into the transcription regulatory profile of P. expansum, aiding in the future development of strategies to control P. expansum.