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Efficient Photoreactivation of Solar UV-Injured Metarhizium robertsii by Rad1 and Rad10 Linked to DNA Photorepair-Required Proteins.

Nucleotide excision repair (NER) of ultraviolet (UV)-induced DNA lesions known as cyclobutane pyrimidine dimer (CPD) and (6-4)-pyrimidine-pyrimidone (6-4PP) photoproducts depends on the activities of multiple anti-UV radiation (RAD) proteins in… Click to show full abstract

Nucleotide excision repair (NER) of ultraviolet (UV)-induced DNA lesions known as cyclobutane pyrimidine dimer (CPD) and (6-4)-pyrimidine-pyrimidone (6-4PP) photoproducts depends on the activities of multiple anti-UV radiation (RAD) proteins in budding yeast. However, NER remains poorly known in filamentous fungi, whose DNA lesions are photorepaired by one or two photolyases, namely CPD-specific Phr1 and/or 6-4PP-specific Phr2. Previously, the white collar proteins WC1 and WC2 were proven to regulate expressions of phr2 and phr1 and photorepair 6-4PP and CDP DNA lesions, respectively, in Metarhizium robertsii, a filamentous entomopathogenic-phytoendophytic fungus. We report here high activities of orthologous Rad1 and Rad10 in 5-h photoreactivation of UVB-injured or UVB-inactivated conidia but a severely compromised capability of their reactivating those conidia via 24-h dark incubation in M. robertsii. The null mutants of rad1 and rad10 were much more compromised in conidial UVB resistance and photoreactivation capability than the previous null mutants of phr1, phr2, wc1 and wc2. Multiple protein-protein (Rad1-Rad10, Rad1-WC2, Rad10-Phr1, WC1-Phr1/2 and WC2-Phr1/2) interactions detected suggest direct/indirect links of Rad1 and Rad10 to Phr1/2 and WC1/2 and an importance of the links for their photoreactivation activities. Conclusively, Rad1 and Rad10 photoreactivate UVB-impaired M. robertsii through their interactions with the DNA photorepair-required proteins.

Keywords: phr1; photorepair; rad1 rad10; photoreactivation

Journal Title: Photochemistry and photobiology
Year Published: 2022

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