1. Contribution of peroxisomes to secondary metabolism and pathogenicity in the fungal plant pathogen Alternaria alternata
- Author
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Takashi Tsuge, Pyoyun Park, Kazuya Akimitsu, Aiko Tanaka, Mikihiro Yamamoto, Yoshiaki Harimoto, and Ai Imazaki
- Subjects
Recombinant Fusion Proteins ,Green Fluorescent Proteins ,Hyphae ,Intracellular Space ,Conidiation ,Peroxin ,Biology ,Peroxisome localization ,Microbiology ,Alternaria alternata ,Fungal Proteins ,Pyrus ,Transformation, Genetic ,Morphogenesis ,Peroxisomes ,Molecular Biology ,Peroxisomal targeting signal ,Plant Diseases ,PEAR ,Alternaria ,General Medicine ,Articles ,Peroxisome ,Mycotoxins ,biology.organism_classification ,Immunity, Innate ,Protein Transport ,Phenotype ,embryonic structures ,Host-Pathogen Interactions ,Mutation ,Black spot - Abstract
The filamentous fungus Alternaria alternata includes seven pathogenic variants (pathotypes) which produce different host-selective toxins and cause diseases on different plants. The Japanese pear pathotype produces the host-selective AK-toxin, an epoxy-decatrienoic acid ester, and causes black spot of Japanese pear. Previously, we identified four genes, AKT1 , AKT2 , AKT3 , and AKTR , involved in AK toxin biosynthesis. AKT1 , AKT2 , and AKT3 encode enzyme proteins with peroxisomal targeting signal type 1 (PTS1)-like tripeptides, SKI, SKL, and PKL, respectively, at the C-terminal ends. In this study, we verified the peroxisome localization of Akt1, Akt2, and Akt3 by using strains expressing N-terminal green fluorescent protein (GFP)-tagged versions of the proteins. To assess the role of peroxisome function in AK-toxin production, we isolated Aa PEX6 , which encodes a peroxin protein essential for peroxisome biogenesis, from the Japanese pear pathotype and made Aa PEX6 disruption-containing transformants from a GFP-Akt1-expressing strain. The ΔAa PEX6 mutant strains did not grow on fatty acid media because of a defect in fatty acid β oxidation. The import of GFP-Akt1 into peroxisomes was impaired in the ΔAa PEX6 mutant strains. These strains completely lost AK toxin production and pathogenicity on susceptible pear leaves. These data show that peroxisomes are essential for AK-toxin biosynthesis. The ΔAa PEX6 mutant strains showed a marked reduction in the ability to cause lesions on leaves of a resistant pear cultivar with defense responses compromised by heat shock. This result suggests that peroxisome function is also required for plant invasion and tissue colonization in A. alternata . We also observed that mutation of Aa PEX6 caused a marked reduction of conidiation.
- Published
- 2010