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Relationship Between Production of the Phytotoxin Prehelminthosporol and Virulence in Isolates of the Plant Pathogenic Fungus Bipolaris sorokiniana

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Abstract

A gas chromatographic method was developed to quantify the phytotoxin prehelminthosporol, which is a sesquiterpene metabolite of the plant pathogen Bipolaris sorokiniana. The toxin was extracted from mycelium or culture filtrates, pre-cleaned using solid phase extraction, and analyzed by gas chromatography as a trimethylsilyl-derivative. The detection limit of the method was 5ngμl−1 (signal to noise ratio 4:1) which corresponds to ca. 15ng prehelminthosporol per mg dry weight of mycelium or 15ng prehelminthosporol per ml culture filtrate. The total amount of prehelminthosporol (mycelium plus culture filtrate) increased with cultivation time when examined in six isolates of B. sorokiniana after 6, 9, 12 and 15 days of incubation. The screening experiment of 17 isolates for prehelminthosporol production after 8 days of incubation revealed significant differences in the toxin production between the isolates. The isolates with low toxin production had lower virulence towards barley roots compared to those with higher production of the toxin. However, the virulence did not increase with prehelminthosporol level among the high producing isolates. Prehelminthosporol was also analyzed in a number of related Bipolaris and Drechslera species. In addition to B. sorokiniana, three out of six Bipolaris species (B. setariae, B. zeicola, B. victoriae) produced prehelminthosporol, which indicates that ability to produce prehelminthosporol is conserved among closely-related Bipolaris species.

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References

  • Åkesson H, Carlemalm E, Everitt E, Gunnarsson T, Odham G and Jansson H-B (1996) Immunocytochemical localization of phytotoxins in Bipolaris sorokiniana. Fungal Genetics and Biology 20: 205–216

    Google Scholar 

  • Aldridge DC and Turner WB (1970) 9-hydroxy prehelminthosporol, a metabolite of Cochliobolus (Helminthosporium) sativum. Journal of Chemical Society C: 686–688

    Google Scholar 

  • Berbee ML, Pirseyedi M and Hubbard S (1999) Cochliobolus phylogenetics and the origin of known, highly virulent pathogens, inferred from ITS and glyceraldehyde-3-phosphate dehydrogenase gene sequences. Mycologia 91: 964–977

    Google Scholar 

  • Bligh EG and Dyer WJ (1959) A rapid method of total lipid extraction and purification. Canadian Journal of Biochemistry and Physiology 37: 911–917

    Google Scholar 

  • Briquet M, Vilret D, Goblet P, Mesa M and Eloy M-C (1998) Plant cell membranes as biochemical targets of the phytotoxin helminthosporol. Journal of Bioenergetics and Biomembranes 30: 285–295

    Google Scholar 

  • Carlson H, Nilsson P, Jansson H-B and Odham G (1991) Characterization and determination of prehelminthosporol, a toxin from the plant pathogenic fungus Bipolaris sorokiniana, using liquid chromatography/mass spectrometry. Journal of Microbiological Methods 13: 259–269

    Google Scholar 

  • Cutler HG, Crumley FG, Cox RH, Davis EE, Harper JL, Cole RJ and Sumner DR (1982) Prehelminthosporol and prehelminthosporol acetate: plant growth regulating properties. Journal of Agriculture and Food Chemistry 30: 658–662

    Google Scholar 

  • De Mayo P, Spencer EY and White RW (1961) Helminthosporal, the toxin from Helminthosporium sativum I. Isolation and characterisation. Canadian Journal of Chemistry 39: 1608–1612

    Google Scholar 

  • De Mayo P, Spencer EY and White RW (1965) Terpenoids VIII. The immediate precursors of helminthosporal and helminthosporol. Canadian Journal of Chemistry 43: 1357–1365

    Google Scholar 

  • Duveiller E, Dubin HJ, Reeves J and McNab A (eds) (1998) Helminthosporium Blights of Wheat: Spot Blotch andTan Spot. Mexico, D.F.: CIMMYT, Mexico, 376 pp

    Google Scholar 

  • Hodges CF and Campbell DA (1999) Endogenous ethane and ethylene of Poa pratensis leaf blades and leaf chlorosis in response to biologically active products of Bipolaris sorokiniana. European Journal of Plant Pathology 105: 825–829

    Google Scholar 

  • Kurppa A (1985) Reaction of spring barley cultivars grown in Finland to soil-borne infection by Bipolaris sorokiniana and to its toxic metabolites. Journal of Agricultural Science in Finland 57: 85–96

    Google Scholar 

  • Liljeroth E, Franzon-Almgren I and Gustafsson M (1994) Effect of prehelminthosporol, a phytotoxin produced by Bipolaris sorokiniana, on barley roots. Canadian Journal of Botany 72: 558–563

    Google Scholar 

  • Liljeroth E, Jansson H-B and Schäfer W (1993) Transformation of Bipolaris sorokiniana with the GUS gene and use for studying fungal colonization of barley roots. Phytopathology 83: 1484–1489

    Google Scholar 

  • Ludwig RA (1957) Toxin production by Helminthosporium sativum and its significance in disease development. Canadian Journal of Botany 35: 291–304

    Google Scholar 

  • Nakajima H, Isomi K and Hamasaki T (1994) Sorokinianin: a novel phytotoxin produced by the phytopathogenic fungus Bipolaris sorokiniana. Tetrahedron Letters 35: 9597–9600

    Google Scholar 

  • Nelson RR (1960) Evolution of sexuality and pathogenicity. I. Interspecific crossing in the genus Helminthosporium. Phytopathology 51: 375–377

    Google Scholar 

  • Nilsson P, Åkesson H, Jansson H-B and Odham G (1993) Production and release of the phytotoxin prehelminthosporol by Bipolaris sorokiniana during growth. FEMS Microbiology Ecology 102: 91–98

    Google Scholar 

  • Olbe M, Sommarin M, Gustafsson M and Lundborg T (1995) Effect of the fungal pathogen Bipolaris sorokiniana toxin prehelminthosporol on barley root plasma membrane vesicles. Plant Pathology 44: 625–635

    Google Scholar 

  • Pena-Rodriguez LM and Chilton WS (1989) Victoxinine and prehelminthosporolactone, two minor phytotoxic metabolites produced by Bipolaris sp., a pathogen of Johnson grass. Journal of Natural Products 52: 899–901

    Google Scholar 

  • Pena-Rodriguez LM, Armingeon NA and Chilton WS (1988) Toxins from weed pathogens. I. Phytotoxins from a Bipolaris pathogen of Johnson grass. Journal of Natural Products 51: 821–828

    Google Scholar 

  • Pringle RB (1976) Comparative biochemistry of the phytopathogenic fungus Helminthosporium. XVI. The production of victoxinine by H. sativum and H. victoriae. Canadian Journal of Biochemistry 54: 783–787

    Google Scholar 

  • Pringle RB (1977) Role of toxins in etiology of root rot disease of wheat. Canadian Journal of Botany 55: 1801–1806

    Google Scholar 

  • Scheffer RP (1991) Role of toxins in evolution and ecology of plant pathogenic fungi. Experientia 47: 804–811

    Google Scholar 

  • Shimizu K, Tanaka C, Peng Y-L and Tsuda M (1998) Phylogeny of Bipolaris inferred from nucleotide sequences of Brn1, a reductase gene involved in melanin biosynthesis. Journal of General and Applied Microbiology 44: 251–258

    Google Scholar 

  • Sivanesan A (1987) Graminicolous Species of Bipolaris, Curvularia, Drechslera, Exserohilum and their Teleomorphs. Mycological Papers 158, 261 pp

  • Skoropad WP and Arny DC (1957) The influence of amino acids on the growth of two strains of Helminthosporium gramineum. Phytopathology 47: 249–252

    Google Scholar 

  • Sommereyns C and Closset JL (1978) Preparation of helminthosporal by extraction with diethyl ether from culture filtrates of Helminthosporium sativum P.K. & B. Phytopathologische Zeitschrift 92: 202–210

    Google Scholar 

  • Yoder OC, Macko T, Wolpert T and Turgeon BG (1997) Cochliobolus spp. and their host-specific toxins. In: Carrol GC and Tudzynski P (eds) Plant Relationships. The Mycota V, Part A (pp 145–166) Springer-Verlag, Berlin, Germany

    Google Scholar 

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Author notes

  1. Hans-Börje Jansson

    Present address: Departamento de Ciencias Ambientales y Recursos Naturales, Universidad de Alicante, Aptdo. Correos 99, E-03080, Alicante, Spain

Authors and Affiliations

  1. Department of Microbial Ecology, Lund University, Ecology Building, S-223 62, Lund, Sweden

    Dace Apoga, Helena Åkesson & Hans-Börje Jansson

  2. Institute of Applied Environmental Research, Stockholm University, S-106 91, Stockholm, Sweden

    Göran Odham

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  1. Dace Apoga
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  2. Helena Åkesson
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  3. Hans-Börje Jansson
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  4. Göran Odham
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Apoga, D., Åkesson, H., Jansson, HB. et al. Relationship Between Production of the Phytotoxin Prehelminthosporol and Virulence in Isolates of the Plant Pathogenic Fungus Bipolaris sorokiniana . European Journal of Plant Pathology 108, 519–526 (2002). https://doi.org/10.1023/A:1019976403391

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