Role of gluconic acid and pH modulation in virulence of Monilinia fructicola on peach fruit

•Peach tissues were acidified by Monilinia fructicola.•Gluconic acid was the main organic acid accumulated at the infection site.•Gluconic acid was the main organic acid produced by M. fructicola under liquid-culture conditions.•Acidification increased the relative induction of transcripts of mfpg 2...

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Published in:	Postharvest biology and technology Vol. 86; pp. 418 - 423
Main Authors:	De Cal, A., Sandín-España, P., Martinez, F., Egüen, B., Chien-Ming, C., Lee, M.H., Melgarejo, P., Prusky, D.
Format:	Journal Article
Language:	English
Published:	Kidlington Elsevier B.V 01-12-2013 Elsevier
Subjects:	Biological and medical sciences Brown rot Citrus Food industries Fruit and vegetable industries Fundamental and applied biological sciences. Psychology Fungal plant pathogens Monilinia fructicola Phytopathology. Animal pests. Plant and forest protection Postharvest diseases Prunus Quiescent infections Brown rot Quiescent infections Postharvest diseases Ascomycota Gluconic acid Infection modality Fruit Virulence Peach Postharvest disease Quiescence Fungi Modulation Rot pH Monilinia fructicola
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Abstract	•Peach tissues were acidified by Monilinia fructicola.•Gluconic acid was the main organic acid accumulated at the infection site.•Gluconic acid was the main organic acid produced by M. fructicola under liquid-culture conditions.•Acidification increased the relative induction of transcripts of mfpg 2 and mfpg3, encoding for two polygalacturonase genes of M. fructicola. Colonization of nectarines and peaches fruit by Monilinia fructicola was accompanied by local acidification of the host tissue. The fungus acidified the host tissue in peaches and nectarines from pH 4.5 and 4.45, to pH 3.75 and 3.9, respectively. Analysis of the acidification process in colonized fruit and secondary inducing media showed that gluconic acid was the main organic acid accumulated at the infection site and under liquid-culture conditions. When comparing a nectarine cv. Big Top and peach cv. Plácido with differing sensitivities to M. fruticola, a 250% higher accumulation of gluconic acid was observed in the susceptible peach cultivar than in the less susceptible nectarine cultivar. Under liquid conditions, at pH 3.6–3.7, the relative expression of transcripts of mfpg 2 and mfpg3, encoding for two polygalacturonase genes of M. fructicola, increased 12-fold and 6-fold, respectively, suggesting the importance of acidification for the secretion of pathogenicity factors by M. fructicola. Our results indicate that ambient pH is a regulatory cue for processes linked to pathogenicity of postharvest pathogens, and that specific genes contributing to pathogenicity are expressed as a result of the environmental pH created by the pathogen.
AbstractList	•Peach tissues were acidified by Monilinia fructicola.•Gluconic acid was the main organic acid accumulated at the infection site.•Gluconic acid was the main organic acid produced by M. fructicola under liquid-culture conditions.•Acidification increased the relative induction of transcripts of mfpg 2 and mfpg3, encoding for two polygalacturonase genes of M. fructicola. Colonization of nectarines and peaches fruit by Monilinia fructicola was accompanied by local acidification of the host tissue. The fungus acidified the host tissue in peaches and nectarines from pH 4.5 and 4.45, to pH 3.75 and 3.9, respectively. Analysis of the acidification process in colonized fruit and secondary inducing media showed that gluconic acid was the main organic acid accumulated at the infection site and under liquid-culture conditions. When comparing a nectarine cv. Big Top and peach cv. Plácido with differing sensitivities to M. fruticola, a 250% higher accumulation of gluconic acid was observed in the susceptible peach cultivar than in the less susceptible nectarine cultivar. Under liquid conditions, at pH 3.6–3.7, the relative expression of transcripts of mfpg 2 and mfpg3, encoding for two polygalacturonase genes of M. fructicola, increased 12-fold and 6-fold, respectively, suggesting the importance of acidification for the secretion of pathogenicity factors by M. fructicola. Our results indicate that ambient pH is a regulatory cue for processes linked to pathogenicity of postharvest pathogens, and that specific genes contributing to pathogenicity are expressed as a result of the environmental pH created by the pathogen. Colonization of nectarines and peaches fruit by Monilinia fructicola was accompanied by local acidification of the host tissue. The fungus acidified the host tissue in peaches and nectarines from pH 4.5 and 4.45, to pH 3.75 and 3.9, respectively. Analysis of the acidification process in colonized fruit and secondary inducing media showed that gluconic acid was the main organic acid accumulated at the infection site and under liquid-culture conditions. When comparing a nectarine cv. Big Top and peach cv. Placido with differing sensitivities to M. fruticola, a 250% higher accumulation of gluconic acid was observed in the susceptible peach cultivar than in the less susceptible nectarine cultivar. Under liquid conditions, at pH 3.6-3.7, the relative expression of transcripts of mfpg 2 and mfpg3, encoding for two polygalacturonase genes of M. fructicola, increased 12-fold and 6-fold, respectively, suggesting the importance of acidification for the secretion of pathogenicity factors by M. fructicola. Our results indicate that ambient pH is a regulatory cue for processes linked to pathogenicity of postharvest pathogens, and that specific genes contributing to pathogenicity are expressed as a result of the environmental pH created by the pathogen.
Author	De Cal, A. Sandín-España, P. Chien-Ming, C. Martinez, F. Egüen, B. Melgarejo, P. Prusky, D. Lee, M.H.
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Keywords	Brown rot Quiescent infections Postharvest diseases Ascomycota Gluconic acid Infection modality Fruit Virulence Peach Postharvest disease Quiescence Fungi Modulation Rot pH Monilinia fructicola
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Snippet	•Peach tissues were acidified by Monilinia fructicola.•Gluconic acid was the main organic acid accumulated at the infection site.•Gluconic acid was the main... Colonization of nectarines and peaches fruit by Monilinia fructicola was accompanied by local acidification of the host tissue. The fungus acidified the host...
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SubjectTerms	Biological and medical sciences Brown rot Citrus Food industries Fruit and vegetable industries Fundamental and applied biological sciences. Psychology Fungal plant pathogens Monilinia fructicola Phytopathology. Animal pests. Plant and forest protection Postharvest diseases Prunus Quiescent infections
Title	Role of gluconic acid and pH modulation in virulence of Monilinia fructicola on peach fruit
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