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Canadian Journal of Plant Pathology Volume 21, 1999 - Issue 1
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Original Articles

Mycelial growth and production of oxalic acid by virulent and hypovirulent isolates of Sclerotinia sclerotiorum

Ting Zhou Agriculture & Agri-Food Canada, Southern Crop Protection & Food Research Centre, 4902 Victoria Avenue North, Vineland Station, ON LOR 2EO, CanadaCorrespondence[email protected]
&
Greg J. Boland Department of Environmental Biology, University of Guelph, Guelph, ON N1G 2Wl, Canada
Pages 93-99 | Accepted 04 Nov 1998, Published online: 07 Feb 2013

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AngelaM. Orshinsky, MichaelJ. Boehm & GregJ. Boland. (2012) Plant wounding and Ophiostoma mitovirus 3a (OMV3a) influence infection of creeping bentgrass by Sclerotinia homoeocarpa . Canadian Journal of Plant Pathology 34:4, pages 493-506.
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Elham Karimi, Naser Safaie & Masoud Shams-bakhsh. (2012) Molecular genotyping of Sclerotinia sclerotiorum isolates from different regions and host plants in Iran. Archives of Phytopathology and Plant Protection 45:8, pages 942-954.
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In'aamY. Shaheen, MohammedH. Abu-Dieyeh, GavinJ. Ash & AlanK. Watson. (2010) Physiological characterization of the dandelion bioherbicide, Sclerotinia minor IMI 344141. Biocontrol Science and Technology 20:1, pages 57-76.
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M.R. Swain & R.C. Ray. (2009) Oxalic acid production by Fusarium oxysporum Schlecht and Botryodiplodia theobromae Pat., post-harvest fungal pathogens of yams (Dioscorea rotundata L.) and detoxification by Bacillus subtilis CM1 isolated from culturable cowdung microflora. Archives of Phytopathology and Plant Protection 42:7, pages 666-675.
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C.J. Jurke & W.G. D. Fernando. (2008) Comparison of growthroom screening techniques for the determination of physiological resistance to sclerotinia stem rot in Brassica napus . Archives of Phytopathology and Plant Protection 41:3, pages 157-174.
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S. Ameer Basha, B. K. Sarnia, K. P. Singh & U. P. Singh. (2006) Variation in Biochemical Composition among Indian Isolates of Sclerotinia sclerotiorum. Mycobiology 34:3, pages 114-119.
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Greg J. Boland. (2004) Fungal viruses, hypovirulence, and biological control of Sclerotinia species. Canadian Journal of Plant Pathology 26:1, pages 6-18.
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S.D. Bardin & H.C. Huang. (2001) Research on biology and control of Sclerotinia diseases in Canada1 . Canadian Journal of Plant Pathology 23:1, pages 88-98.
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Articles from other publishers (24)

Haris Ahmed Khan, Mamuna Mukhtar & Muhammad Faraz Bhatti. (2023) Mycovirus-induced hypovirulence in notorious fungi Sclerotinia: a comprehensive review. Brazilian Journal of Microbiology 54:3, pages 1459-1478.
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Mohammad Magdy El-Metwally, Amal Ahmed Ibrahim Mekawey, Yasser El-Halmouch & Nourhan Gaber Naga. 2023. Plant Mycobiome. Plant Mycobiome 375 413 .
Roaf Ahmad Rather, Farooq Ahmad Ahanger, Shafat Ahmad Ahanger, Umer Basu, M. Altaf Wani, Zahida Rashid, Parvaze Ahmad Sofi, Vishal Singh, Kounser Javeed, Alaa Baazeem, Saqer S. Alotaibi, Owais Ali Wani, Jasima Ali Khanday, Showket Ahmad Dar & Muntazir Mushtaq. (2022) Morpho-Cultural and Pathogenic Variability of Sclerotinia sclerotiorum Causing White Mold of Common Beans in Temperate Climate. Journal of Fungi 8:7, pages 755.
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Rupeet Gill, Prabhjodh S. Sandhu, Sanjula Sharma & Pankaj Sharma. (2021) Pathogenicity Determinants of Sclerotinia sclerotiorum and Their Association to Its Aggressiveness on Brassica juncea. The Plant Pathology Journal 37:4, pages 365-374.
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Richard W. Webster, Mitchell G. Roth, Hannah Reed, Brian Mueller, Carol L. Groves, Megan McCaghey, Martin I. Chilvers, Daren S. Mueller, Mehdi Kabbage & Damon L. Smith. (2021) Identification of Soybean ( Glycine max ) Check Lines for Evaluating Genetic Resistance to Sclerotinia Stem Rot . Plant Disease 105:8, pages 2189-2195.
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Tasvina Rahman Borah, Subrata Dutta, Ashis Roy Barman, Rizwanul Helim & Krishnendu Sen. (2021) Variability and host range of Sclerotinia sclerotiorum in Eastern and North Eastern India. Journal of Plant Pathology 103:3, pages 809-822.
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G. M. Frolova, S. V. Sokornova & A. O. Berestetskiy. (2019) Pathogenicity and Lipid Composition of Mycelium of the Fungus Stagonospora cirsii VIZR 1.41 Produced on Liquid Media with Different Nitrogen Sources. Applied Biochemistry and Microbiology 55:5, pages 556-562.
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María Marina, Fernando M. Romero, Natalia M. Villarreal, Andrés J. Medina, Andrés Gárriz, Franco R. Rossi, Gustavo A. Martinez & Fernando L. Pieckenstain. (2019) Mechanisms of plant protection against two oxalate-producing fungal pathogens by oxalotrophic strains of Stenotrophomonas spp.. Plant Molecular Biology 100:6, pages 659-674.
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Megan McCaghey, Jaime Willbur, Damon L. Smith & Mehdi Kabbage. (2018) The complexity of the Sclerotinia sclerotiorum pathosystem in soybean: virulence factors, resistance mechanisms, and their exploitation to control Sclerotinia stem rot. Tropical Plant Pathology 44:1, pages 12-22.
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Zhiyuan LǚXin KangZhonghuai XiangNingjia He. (2017) Laccase Gene Sh-lac Is Involved in the Growth and Melanin Biosynthesis of Scleromitrula shiraiana . Phytopathology® 107:3, pages 353-361.
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Akansha Jain, Akanksha Singh, Surendra Singh, Birinchi Kumar Sarma & Harikesh Bahadur Singh. (2014) Biocontrol agents‐mediated suppression of oxalic acid induced cell death during Sclerotinia sclerotiorum –pea interaction . Journal of Basic Microbiology 55:5, pages 601-606.
Crossref
Margaret B. Uloth, Peta L. Clode, Ming Pei You & Martin J. Barbetti. (2015) Calcium Oxalate Crystals: An Integral Component of the Sclerotinia sclerotiorum/Brassica carinata Pathosystem. PLOS ONE 10:3, pages e0122362.
Crossref
Cheng Yang, Zishan Zhang, Huiyuan Gao, Meijun Liu & Xingli Fan. (2014) Mechanisms by which the infection of Sclerotinia sclerotiorum (Lib.) de Baryaffects the photosynthetic performance in tobacco leaves. BMC Plant Biology 14:1.
Crossref
Annerose Heller & Tanja Witt-Geiges. (2013) Oxalic Acid Has an Additional, Detoxifying Function in Sclerotinia sclerotiorum Pathogenesis. PLoS ONE 8:8, pages e72292.
Crossref
Shivani Yadav, Alok K. Srivastava, Dhanajay P. Singh & Dilip K. Arora. (2012) Isolation of Oxalic acid tolerating fungi and decipherization of its potential to control Sclerotinia sclerotiorum through oxalate oxidase like protein. World Journal of Microbiology and Biotechnology 28:11, pages 3197-3206.
Crossref
Jatinder Singh Sangha, Sridhar Ravichandran, Kalyani Prithiviraj, Alan T. Critchley & Balakrishnan Prithiviraj. (2010) Sulfated macroalgal polysaccharides λ-carrageenan and ι-carrageenan differentially alter Arabidopsis thaliana resistance to Sclerotinia sclerotiorum. Physiological and Molecular Plant Pathology 75:1-2, pages 38-45.
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Jonathan Gressel. (2017) Herbicides as Synergists for Mycoherbicides, and Vice Versa. Weed Science 58:3, pages 324-328.
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Harsh Garg, Linda M. Kohn, M. Andrew, Hua Li, Krishnapillai Sivasithamparam & M. J. Barbetti. (2009) Pathogenicity of morphologically different isolates of Sclerotinia sclerotiorum with Brassica napus and B. juncea genotypes. European Journal of Plant Pathology 126:3, pages 305-315.
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D. Macarisin, L. Cohen, A. Eick, G. Rafael, E. Belausov, M. Wisniewski & S. Droby. (2007) Penicillium digitatum Suppresses Production of Hydrogen Peroxide in Host Tissue During Infection of Citrus Fruit . Phytopathology® 97:11, pages 1491-1500.
Crossref
A. Harel, S. Bercovich & O. Yarden. (2006) Calcineurin Is Required for Sclerotial Development and Pathogenicity of Sclerotinia sclerotiorum in an Oxalic Acid-Independent Manner . Molecular Plant-Microbe Interactions® 19:6, pages 682-693.
Crossref
Guo-Quing Li, Henry C. Huang, André Laroche & Surya N. Acharya. (2003) Occurrence and characterization of hypovirulence in the tan sclerotial isolate S10 of Sclerotinia sclerotiorum. Mycological Research 107:11, pages 1350-1360.
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Pascale Cotton, Zsolt Kasza, Christophe Bruel, Christine Rascle & Michel Fèvre. (2003) Ambient pH controls the expression of endopolygalacturonase genes in the necrotrophic fungus Sclerotinia sclerotiorum . FEMS Microbiology Letters 227:2, pages 163-169.
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Elroy R. Cober, Sylvie Rioux, Istvan Rajcan, Pauline A. Donaldson & Daina H. Simmonds. (2003) Partial Resistance to White Mold in a Transgenic Soybean Line. Crop Science 43:1, pages 92-95.
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Jim M. Dunwell, Sawsan Khuri & Paul J. Gane. (2000) Microbial Relatives of the Seed Storage Proteins of Higher Plants: Conservation of Structure and Diversification of Function during Evolution of the Cupin Superfamily. Microbiology and Molecular Biology Reviews 64:1, pages 153-179.
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