4.7 Article

Melanin synthesis gene Aapks contributes to appressorium formation, stress response, cell well integrity and virulence in Alternaria alternata

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POSTHARVEST BIOLOGY AND TECHNOLOGY
卷 198, 期 -, 页码 -

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ELSEVIER
DOI: 10.1016/j.postharvbio.2023.112247

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Alternaria alternata; Melanin; pks; Cell wall integrity; Stress; Pathogenicity

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The polyketide synthase gene (Aapks) in Alternaria alternata plays a crucial role in melanin synthesis, response to stresses, infection structure formation, and pathogenicity. A study showed that AAapks mutant lacked melanin production, exhibited reduced sporulation and abnormal morphology. The mutant strain also showed hypersensitivity to cell wall and oxidant stress factors, and had delayed infection structure formation. The virulence of AAapks strain was reduced in both wound-inoculated pear fruit and non-wound-inoculated tobacco leaves. These findings highlight the vital regulatory role of Aapks in A. alternata.
Melanin, as a common pigment, performs diverse biological function related to growth and development, environmental stress and pathogenicity in many pathogenic fungi. The polyketide synthase (Aapks) gene is a key gene in 1,8-dihydroxynaphthalene (DHN) melanin synthesis pathway, however, the regulatory roles of Aapks in pear fungal Alternaria alternata, on melanin synthesis, external stresses response, infection structure differenti-ation and pathogenicity are not clear. The pks gene was cloned and identified in A. alternata. Gene knockout experiment showed that AAapks mutant resulted in melanin deficiency and pink pigment production, reduced sporulation and abnormal spore and hyphae. Hypersensitivity to cell wall and oxidant stress factors were also found in AAapks, especially the impaired cell wall of AAapks was observed after CFW staining, and chitinase activity and related genes expression Aachs4 and Aachs6 were also decreased in AAapks. Interestingly, the AAapks mutant delayed infection structural differentiation induced by the different physicochemical signals. The virulence of AAapks strain was reduced after wound-inoculated pear fruit and non-wound-inoculated tobacco leaves. The above findings suggested the Aapks plays a vital regulatory role in response to stresses, infection structure formation, cell wall integrity and virulence in A. alternata by catalyzing the melanin synthesis.

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