AI Article Synopsis
- The black mold significantly impacts agriculture by colonizing crops postharvest and producing harmful mycotoxins, but it's not very effective at infecting living plants.
- The study focused on the role of the HogA protein in the fungi's ability to colonize host plants, revealing that a strain lacking HogA had difficulty colonizing tomatoes and apples when using spores, while the strain thrived when using hyphal inoculum.
- Molecular tests showed that stress-related genes were activated differently depending on the state of the fungus (germlings vs. hyphae) and the presence of the HogA protein, indicating its importance in response to stress during the early stages of colonization.
Article Abstract
The black mold causes dramatic losses in agriculture due to postharvest colonization and mycotoxin formation and is a weak pathogen on living plants. Fungal signaling processes are crucial for successful colonization of a host plant. Because the mitogen-activated protein kinase HogA is important for the expression of stress-associated genes, we tested a ∆deletion strain for pathogenicity. When conidia were used as inoculum, the ∆deletion strain was largely impaired in colonizing tomato and apple. In comparison, hyphae as inoculum colonized the fruit very well. Hence, HogA appears to be important only in the initial stages of plant colonization. A similar difference between conidial inoculum and hyphal inoculum was observed on artificial medium in the presence of different stress agents. Whereas wild-type conidia adapted well to different stresses, the ∆deletion strain failed to grow under the same conditions. With hyphae as inoculum, the wild type and the ∆deletion strain grew in a very similar way. At the molecular level, we observed upregulation of several catalase (, and ) and superoxide dismutase (, and ) genes in germlings but not in hyphae after exposure to 4 mM hydrogen peroxide. The upregulation required the high osmolarity glycerol (HOG) pathway. In contrast, in mycelia, , and were upregulated upon stress in the absence of HogA. Several other stress-related genes behaved in a similar way.
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| http://dx.doi.org/10.1094/MPMI-06-20-0165-R | DOI Listing |
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