Fatty Acid Synthase Beta Dehydratase in the Lipid Biosynthesis Pathway Is Required for Conidiogenesis, Pigmentation and Appressorium Formation in <i>Magnaporthe oryzae</i> S6
Lipid biosynthesis produces glycerol, which is important in fueling turgor pressure necessary for germination and penetration of plant host by fungi. As the relationship between pathogenicity and the lipid biosynthetic pathway is not fully understood, we have elucidated the role of the fatty acid sy...
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doaj-34423d92b98e4432932bd11cb4a6f8192020-11-25T02:11:38ZengMDPI AGInternational Journal of Molecular Sciences1661-65961422-00672020-09-01217224722410.3390/ijms21197224Fatty Acid Synthase Beta Dehydratase in the Lipid Biosynthesis Pathway Is Required for Conidiogenesis, Pigmentation and Appressorium Formation in <i>Magnaporthe oryzae</i> S6Vaanee Sangappillai0Kalaivani Nadarajah1Department of Biological Sciences and Biotechnology, Faculty of Science and Technology, Universiti Kebangsaan Malaysia; UKM Bangi 43600, MalaysiaDepartment of Biological Sciences and Biotechnology, Faculty of Science and Technology, Universiti Kebangsaan Malaysia; UKM Bangi 43600, MalaysiaLipid biosynthesis produces glycerol, which is important in fueling turgor pressure necessary for germination and penetration of plant host by fungi. As the relationship between pathogenicity and the lipid biosynthetic pathway is not fully understood, we have elucidated the role of the fatty acid synthase beta subunit dehydratase (<i>FAS1</i>) gene in lipid biosynthesis. The <i>FAS1</i> gene was silenced through homologous double crossover in <i>Magnaporthe oryzae</i> strain S6 to study the effect on lipid biosynthesis. The vegetative growth of <i>Δfas1</i> mutants show the highest drop on oleic acid (between 10 and 50%), while the mycelial dry weight of mutants dropped significantly on all media. Conidiation of FAS1 mutants show a ~10- and ~5-fold reduction on oatmeal and Potato Dextrose Agar (PDA), respectively. Mutants formed mycelium that were mildly pigmented, indicating that the deletion of <i>FAS1</i> may have affected melanin biosynthesis. Biochemical and gene expression studies concluded that the fatty acid degradation pathway might have been interrupted by <i>FAS1</i> deletion. FAS1 mutants showed no enzyme activity on glucose or olive oil, suggesting that the mutants may lack functional peroxisomes and be defective in β-oxidation of fatty acids, hence explaining the reduced lipid deposits in the spores.https://www.mdpi.com/1422-0067/21/19/7224<i>Magnaporthe oryzae</i>lipid biosynthesisappressoriumfatty acidperoxisomes |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Vaanee Sangappillai Kalaivani Nadarajah |
spellingShingle |
Vaanee Sangappillai Kalaivani Nadarajah Fatty Acid Synthase Beta Dehydratase in the Lipid Biosynthesis Pathway Is Required for Conidiogenesis, Pigmentation and Appressorium Formation in <i>Magnaporthe oryzae</i> S6 International Journal of Molecular Sciences <i>Magnaporthe oryzae</i> lipid biosynthesis appressorium fatty acid peroxisomes |
author_facet |
Vaanee Sangappillai Kalaivani Nadarajah |
author_sort |
Vaanee Sangappillai |
title |
Fatty Acid Synthase Beta Dehydratase in the Lipid Biosynthesis Pathway Is Required for Conidiogenesis, Pigmentation and Appressorium Formation in <i>Magnaporthe oryzae</i> S6 |
title_short |
Fatty Acid Synthase Beta Dehydratase in the Lipid Biosynthesis Pathway Is Required for Conidiogenesis, Pigmentation and Appressorium Formation in <i>Magnaporthe oryzae</i> S6 |
title_full |
Fatty Acid Synthase Beta Dehydratase in the Lipid Biosynthesis Pathway Is Required for Conidiogenesis, Pigmentation and Appressorium Formation in <i>Magnaporthe oryzae</i> S6 |
title_fullStr |
Fatty Acid Synthase Beta Dehydratase in the Lipid Biosynthesis Pathway Is Required for Conidiogenesis, Pigmentation and Appressorium Formation in <i>Magnaporthe oryzae</i> S6 |
title_full_unstemmed |
Fatty Acid Synthase Beta Dehydratase in the Lipid Biosynthesis Pathway Is Required for Conidiogenesis, Pigmentation and Appressorium Formation in <i>Magnaporthe oryzae</i> S6 |
title_sort |
fatty acid synthase beta dehydratase in the lipid biosynthesis pathway is required for conidiogenesis, pigmentation and appressorium formation in <i>magnaporthe oryzae</i> s6 |
publisher |
MDPI AG |
series |
International Journal of Molecular Sciences |
issn |
1661-6596 1422-0067 |
publishDate |
2020-09-01 |
description |
Lipid biosynthesis produces glycerol, which is important in fueling turgor pressure necessary for germination and penetration of plant host by fungi. As the relationship between pathogenicity and the lipid biosynthetic pathway is not fully understood, we have elucidated the role of the fatty acid synthase beta subunit dehydratase (<i>FAS1</i>) gene in lipid biosynthesis. The <i>FAS1</i> gene was silenced through homologous double crossover in <i>Magnaporthe oryzae</i> strain S6 to study the effect on lipid biosynthesis. The vegetative growth of <i>Δfas1</i> mutants show the highest drop on oleic acid (between 10 and 50%), while the mycelial dry weight of mutants dropped significantly on all media. Conidiation of FAS1 mutants show a ~10- and ~5-fold reduction on oatmeal and Potato Dextrose Agar (PDA), respectively. Mutants formed mycelium that were mildly pigmented, indicating that the deletion of <i>FAS1</i> may have affected melanin biosynthesis. Biochemical and gene expression studies concluded that the fatty acid degradation pathway might have been interrupted by <i>FAS1</i> deletion. FAS1 mutants showed no enzyme activity on glucose or olive oil, suggesting that the mutants may lack functional peroxisomes and be defective in β-oxidation of fatty acids, hence explaining the reduced lipid deposits in the spores. |
topic |
<i>Magnaporthe oryzae</i> lipid biosynthesis appressorium fatty acid peroxisomes |
url |
https://www.mdpi.com/1422-0067/21/19/7224 |
work_keys_str_mv |
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