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References

  • [1]
    Behr, H.C. (1998) Der Pilzmarkt unter der Luppe. Champignon 405, 241249.
  • [2]
    Rainey, P.B., Brodey, C.L. and Johnstone, K. (1992) Biology of Pseudomonas tolaasii, cause of brown blotch disease of the cultivated mushrooms. In: Adv. Plant Pathol. (Andrews, J.H. and Tommerup, I., Eds.), pp. 95–117. Academic Press.
  • [3]
    Ryall, A.L. and Lipton, W.J. (1979) Handling, transportation and storage of fruits and vegetables. In: Vegetables and Melons, p. 587. AVI Publishers, Westport.
  • [4]
    Burton, K.S., Noble, R. (1993) The influence of flush number, bruising and storage temperature on mushroom quality. Post-harvest Biol. Tech. 3, 3947.
  • [5]
    Burton, K.S., Sreenivasaprasad, S., Rama, T., Evered, C.E., Mc Garry, A. (1995) Mushroom quality and senescence. Mushroom Sci. 14, 687693.
  • [6]
    Doores, S., Kramer, M., Beelman, R.B. (1987) Evaluation and bacterial populations associated with fresh mushrooms (Agaricus bisporus). Dev. Crop Sci. 10, 283294.
  • [7]
    Olivier, J.M., Guillaumes, J. and Martin, D. (1978) Study of a bacterial disease of mushroom caps. In: Proc. 4th Int. Conf. Plant Path. Bact., pp. 903–916. INRA, Angers.
  • [8]
    Janse, J.D., Derks, J.H.J., Spit, B.E., Tuin, W.R.v.d. (1992) Classification of fluorescent soft rot Pseudomonas bacteria, including Pseudomonas marginalis strains, using whole cell fatty acid analysis. Syst. Appl. Microbiol. 15, 538553.
  • [9]
    Ercolani, G.L. (1970) Primi risultati di osservazioni sulla maculatura batterica dei funghi coltivati (Agaricus bisporus (Lange) Imbach) in Italia: di Pseudomonas tolaasii Paine. Phytopathol. Mediterr. 9, 5961.
  • [10]
    Tolaas, A.G. (1915) A bacterial disease of cultived mushrooms. Phytopathology 5, 5154.
  • [11]
    Nair, N.G. (1975) Observations on three important diseases of the cultivated mushroom in New South Wales, Plant Dis. Surv., pp. 30–32.
  • [12]
    Bashan, Y., Okon, Y. (1981) Integrated control of bacterial blotch in Israel. Mushroom J. 97, 2933.
  • [13]
    Ozaktan, H., Bora, T. (1994) Studies on identification of bacterial microflora of mushroom in Turkey. J. Turk. Phytopathol. 23, 7378.
  • [14]
    Suyama, K., Fujii, H. (1993) Bacterial disease occurred on cultivated mushroom in Japan. J. Agric. Sci. 38, 3550.
  • [15]
    Kim, J., Kwon, S., Kang, H., Kim, J.W., Kwon, S.I., Kang, H.J. (1995) Studies on the pathogenic Pseudomonas causing bacterial diseases of cultivated mushrooms in Korea. 2. Bacteriological characteristics of P. tolaasii causing mushroom brown blotch and white line reacting organisms. Korean J. Plant Pathol. 11, 353360.
  • [16]
    Cutri, S.S., Macauley, B.J., Roberts, W.P. (1984) Characteristics of pathogenic non-fluorescent (smooth) and non-pathogenic fluorescent (rough) forms of Pseudomonas tolaasii and Pseudomonas gingeri. J. Appl. Bacteriol. 57, 291298.
  • [17]
    Guleria, D.S. (1976) A note on the occurrence of brown blotch of cultivated mushrooms in India. Indian J. Mushrooms 2, 125.
  • [18]
    Paine, S.G. (1919) Studies in bacteriosis II: a brown blotch disease of cultivated mushrooms. Ann. Appl. Biol. 5, 206219.
  • [19]
    Miller, F.C., Spear, M. (1995) Very large scale commercial trial of a biological control for mushroom blotch disease. Mushroom Sci. 14, 635642.
  • [20]
    Nair, N.G., Bradley, J.K. (1980) Mushroom blotch bacterium during cultivation. Mushroom J. 90, 201203.
  • [21]
    Beelman, R.B., Guthrie, B.D., Royse, D.J. (1989) Influence of bacterial populations on postharvest deterioration of fresh mushrooms. Mushroom Sci. 12, 655665.
  • [22]
    Wells, J.M., Sapers, G.M., Fett, W.F., Butterfield, J.E., Jones, J.B., Bouzar, H., Miller, F.C. (1996) Postharvest discoloration of the cultivated mushroom Agaricus bisporus caused by Pseudomonas tolaasii, P. ‘reactans’ and P. ‘gingeri’. Phytopathology 86, 10981104.
  • [23]
    King, E.O., Ward, K., Raney, S., Raney, D.E. (1954) Two simple media for the demonstration of pyocyanin and fluorescein. J. Lab. Clin. Med. 44, 301307.
  • [24]
    Zarkower, P.A., Wuest, P.J., Royse, D.J., Myers, B. (1984) Phenotypic traits of fluorescent pseudomonads causing bacterial blotch of Agaricus bisporus mushrooms and other mushroom-derived fluorescent pseudomonads. Can. J. Microbiol. 30, 360367.
  • [25]
    Fett, W.F., Wells, J.M., Cescutti, P., Wijey, C. (1995) Identification of exopolysaccharides produced by fluorescent pseudomonads associated with commercial mushroom (Agaricus bisporus) production. Appl. Environ. Microbiol. 61, 513517.
  • [26]
    Grewal, S.I.S., Han, B., Johnstone, K. (1995) Identification and characterization of a locus which regulates multiple functions in Pseudomonas tolaasii, the cause of brown blotch disease of Agaricus bisporus. J. Bacteriol. 177, 46584668.
  • [27]
    Rainey, P.B. (1989) The involvement of P. putida in basidiome initiation of the cultivated mushroom A. bisporus. Ph.D. Thesis, University of Canterbury.
  • [28]
    Wu, R.M., Palmer, B., Cole, A. (1998) Phenotypic variation and survival of genetically marked Pseudomonas tolaasii in mushroom compost. Can. J. Microbiol. 44, 373377.
  • [29]
    Han, B., Pain, A., Johnstone, K. (1997) Spontaneous duplication of a 661 bp element within a two-component sensor regulator gene causes phenotypic switching in colonies of Pseudomonas tolaasii, cause of brown blotch disease of mushrooms. Mol. Microbiol. 25, 211218.
  • [30]
    Ronson, C.W., Nixon, B.T., Ausubel, F.M. (1987) Conserved domains in bacterial regulatory proteins that respond to environmental stimuli. Cell 49, 579581.
  • [31]
    Han, B., Pain, A., Smith, J., Grewal, S., Johnstone, K. (1995) Regulation of phenotypic variation and toxin synthesis in Pseudomonas tolaasii. Indian J. Mycol. Plant Pathol. 25, 105106.
  • [32]
    Tsuneda, A., Suyama, K., Murakami, S., Ohira, I. (1995) Occurrence of Pseudomonas tolaasii on fruiting bodies of Lentinula edodes formed on Quercus logs. Mycoscience 36, 283288.
  • [33]
    Houdeau, G., Olivier, J.M. (1989) Pathology of Pleurotus (oyster mushroom). Champignon 337, 1014.
  • [34]
    Ferri, F. (1985) Bacterial diseases in fungi of the genus Pleurotus. Mushroom Inf. 2, 4754.
  • [35]
    Lee, H.U., Lee, M.H., Cho, D.J., Shin, W.K., Moon, B.J. (1996) Influence of Pseudomonas species causing bacterial blotch of mushrooms on the mycelial growth in Pleurotus ostreatus and Flammulina velutipes. RDA J. Agric. Sci. Farm Manage. Agric. Eng. Seric. Mycol. Farm Prod. Util. 38, 887892.
  • [36]
    Gandy, D.G. (1979) The pathogens of Agaricus bitorquis. 1978 Ann. Rep. Glasshouse Crops Res. Inst. 142.
  • [37]
    Talame, M., Piccirillo, F. (1995) I nemici del cavolfiore. Inf. Agrar. Supl. 51, 2533.
  • [38]
    Shirata, A., Sugaya, K., Takasugi, M., Monde, K. (1995) Isolation and biological activity of toxins produced by a Japanese strain of Pseudomonas tolaasii, the pathogen of bacterial rot of cultivated oyster mushroom. Ann. Phytopathol. Soc. Jpn. 61, 493502.
  • [39]
    Rainey, P.B., Brodey, C.L., Johnstone, K. (1991) Biological properties and spectrum of activity of tolaasin, a lipodepsipeptide toxin produced by the mushroom pathogen Pseudomonas tolaasii. Physiol. Mol. Plant Pathol. 39, 5770.
  • [40]
    Tanprasert, P., Reed, B.M. (1997) Detection and identification of bacterial contaminants from strawberry runner explants. In Vitro Cell. Dev. Biol. Plant 33, 221226.
  • [41]
    Noval, C., Seisdedos, M.T., Cruz, J.I.d.l. (1993) Estudio de la posible relacion entre la caida de yemas en peral y la capacidad bacteriana para formar nucleos de hielos u originar podredumbre banda. Bol. Sanid. Veg. 19, 649661.
  • [42]
    Zdor, R.E., Anderson, A.J. (1992) Influence of root colonizing bacteria on the defense responses of bean. Plant Soil 104, 99107.
  • [43]
    Morihara, K. and Homma, J.Y. (1985) Pseudomonas proteases. In: Bacterial Enzymes and Virulence (Holder, I.A., Ed.), pp. 41–79. CRC Press, Boca Raton, FL.
  • [44]
    Fairbairn, D.J., Law, B.A. (1986) Proteinases of psychrotropic bacteria: their production, properties, effects and control. J. Dairy Res. 53 139.
  • [45]
    Baral, A., Fox, P.F., O'Connor, T.P. (1995) Isolation and characterization of an extracellular proteinase from Pseudomonas tolaasii. Phytochemistry 39, 757762.
  • [46]
    Baral, A., Fox, P.F. (1997) Isolation and characterization of an extracellular lipase from Pseudomonas tolaasii. Fd. Chem. 58, 3338.
  • [47]
    Hohnadel, D., Meyer, J.M. (1988) Specificity of pyoverdin-mediated iron uptake among fluorescent Pseudomonas strains. J. Bacteriol. 170, 48654873.
  • [48]
    Demange, P., Bateman, A., Mertz, C., Dell, A., Piemont, Y., Abdallah, M.A. (1990) Bacterial siderophores: Structures of pyoverdins Pt, siderophores of Pseudomonas tolaasii NCPPB 2192, and pyoverdins Pf, siderophores of Pseudomonas fluorescens CCM 2798: Identification of an unusual natural amino acid. Biochemistry 29, 1104111051.
  • [49]
    Georges, C., Meyer, J.M. (1995) High-molecular-mass, iron-repressed cytoplasmic proteins in fluorescent Pseudomonas: Potential peptide-synthetases for pyoverdine biosynthesis. FEMS Microbiol. Lett. 132, 915.
  • [50]
    Nair, N.G., Fahy, P.C. (1973) Toxin production by Pseudomonas tolaasii Paine. Aust. J. Biol. Sci. 26, 509512.
  • [51]
    Malcolm, H.D. (1981) A toxin associated with bacterial blotch of mushrooms. Mushroom Sci. 11, 324330.
  • [52]
    Peng, J.T. (1986) Resistance to disease in A. bisporus (Lange) Imbach. Ph.D. Thesis, University of Leeds, Leeds.
  • [53]
    Murata, H. and Magae, Y. (1996) Toxin production in a mushroom pathogenic bacterium, Pseudomonas tolaasii strain PT814 is activated by signals present in a Host, Pleorotus ostreatus, and those accumulating in the medium in the course of bacterial growth. In: Mushroom Biology and Mushroom Products (Royse, D.J., Ed.), pp. 483–494. Penn State University, PA.
  • [54]
    Nutkins, J.C., Mortishire Smith, R.J., Packman, L.C., Brodey, C.L., Rainey, P.B., Johnstone, K., Williams, D.H. (1991) Structure determination of tolaasin, an extracellular lipodepsipeptide produced by the mushroom pathogen Pseudomonas tolaasii Paine. J. Am. Chem. Soc. 113, 26212627.
  • [55]
    Mortishire-Smith, R.J., Drake, A.F., Nutkins, J.C., Williams, D.H. (1991) Left handed alpha-helix formation by a bacterial peptide. FEBS Lett. 278, 244246.
  • [56]
    Rainey, P.B., Brodey, C.L., Johnstone, K. (1993) Identification of a gene cluster encoding three high-molecular-weight proteins, which is required for synthesis of tolaasin by the mushroom pathogen Pseudomonas tolaasii. Mol. Microbiol. 8, 643652.
  • [57]
    Mamoun, M., Moquet, F., Laffitte, J., Olivier, J.M. (1997) Pseudomonas tolaasii: extra genomic factor mediates toxin production and efficiency. FEMS Microbiol. Lett. 153, 215219.
  • [58]
    Hutchison, M.L., Johnstone, K. (1993) Evidence for the involvement of the surface active properties of the extracellular toxin tolaasin in the manifestation of brown blotch disease symptoms by Pseudomonas tolaasii on Agaricus bisporus. Physiol. Mol. Plant Pathol. 42, 373384.
  • [59]
    Brodey, C.L., Rainy, P.B., Tester, M., Johnstone, K. (1991) Bacterial blotch disease of the cultivated mushroom is caused by an ion channel forming lipodepsipeptide toxin. Mol. Plant-Microbe Inter. 4, 407411.
  • [60]
    Simon, R., Priefer, V., Puhler, A. (1983) A broad host range mobilization system for in vivo genetic engineering: Transposon mutagenesis in Gram-negative bacteria. Biotechnology 1, 784791.
  • [61]
    Park, C.J., Oh, S.K., Chun, U.H. (1994) Identification of mushroom brown blotch causing agent from Pseudomonas tolaasii culture broth. Agric. Chem. Biotechnol. 37, 392396.
  • [62]
    Shirata, A. (1996) Production of volatile components by Pseudomonas tolaasii and their toxic activity. Ann. Phytopathol. Soc. Jpn. 62, 185193.
  • [63]
    Gandy, D.G. (1967) The epydemiology of bacterial blotch of the cultivated mushroom. 1966 Ann. Rep. Glasshouse Crops Res. Inst., pp. 150–154.
  • [64]
    Bessette, A.E. (1985) Use of the mushroom tissue block rapid pitting test to detect brown blotch pathogens. Appl. Environ. Microbiol. 49, 9991000.
  • [65]
    Olivier, J.M. (1982) Bacterial blotch in French caves. In: Symposium on Bacterial Blotch, International Society for Mushroom Science, pp. 31–45. Littlehamptom.
  • [66]
    Wong, W.C., Preece, T.F. (1979) Identification of Pseudomonas tolaasii: the white line in agar and mushroom tissue block rapid pitting tests. J. Appl. Bacteriol. 47, 401407.
  • [67]
    Mortishire-Smith, R.J., Nutkins, J.C., Packman, L.C., Brodey, C.L., Rainey, P.B., Johnstone, K., Williams, D.H. (1991) Determination of the structure of an extracellular peptide produced by the mushroom saprotroph Pseudomonas reactans. Tetrahedron 47, 36453654.
  • [68]
    Han, F., Mortishire-Smith, R.J., Bainey, P.B., Williams, D.H. (1992) Structure of the White-line-inducing principle isolated from Pseudomonas reactans. Acta Cryst. C48, 19651968.
  • [69]
    Wichers, H.J. and Leuween, J.v. (1996) Kinetics of mushroom discolouration. In: Agri-Food Quality. A Interdisciplinary Approach (Fenwick, G.H., Hedley, C., Richards, R.L. and Khokhar, S., Eds.), pp. 275–278. The Royal Society of Chemistry, Norwich.
  • [70]
    Aldridge, P.D., Walker, J.R.L. (1980) A study of enzymic browning in the cultivated mushroom (Agaricus bisporus). Mauri Ora 8, 3543.
  • [71]
    Moore, B.M., Kang, B., Flurkey, W.H. (1988) Histochemical and immunochemical localization of tyrosinase in whole tissue sections of mushrooms. Phytochemistry 27, 37353737.
  • [72]
    Boekelheide, K., Graham, D.G., Mize, P.D., Jeffs, P.W. (1980) The metabolic pathway catalyzed by the tyrosinase of Agaricus bisporus. J. Biol. Chem. 255, 47664771.
  • [73]
    Jolivet, J., Arpin, N., Wichers, H.J., Pellon, G. (1998) Agaricus bisporus browning: a review. Mycol. Res. 102, 14591483.
  • [74]
    R.L. Jolley Jr., Robb, D.A., Mason, H.S. (1969) The multiple forms of mushroom tyrosinase. Association-Dissociation phenomena. J. Biol. Chem. 244, 15931599.
  • [75]
    Devi, C.C., Tripathi, R.K., Ramaiah, A. (1989) PH-Dependent interconvertible forms of mushroom tyrosinase with different kinetic properties. Pigment Cell Res. 2, 813.
  • [76]
    Strothkamp, K.G., Jolley, R.L., Mason, H.S. (1976) Quaternary structure of mushroom tyrosinase. Biochem. Biophys. Res. Commun. 70, 519524.
  • [77]
    Robb, D.A., Gutteridge, S. (1981) Polypeptide composition of two fungal tyrosinases. Phytochemistry 20, 14811485.
  • [78]
    Wichers, H.J., Gerritsen, Y.A.M., Chapelon, C.G.J. (1996) Tyrosinase isoforms from the fruiting bodies of Agaricus bisporus. Phytochemistry 43, 333337.
  • [79]
    Wichers, H.J., Bosch, T.v.d., Gerritsen, Y.A.M., Oyevaar, J.I., Ebbelaar, M.C.E.M., Recourt, K., Kerrigan, R.W. (1995) Enzymology and molecular biology of Agaricus bisporus tyrosinase. Mushroom Sci. 14, 723728.
  • [80]
    Kupper, U., Niedermann, M., Travaglini, G., Lerch, K. (1989) Isolation and characterization of the tyrosinase gene from Neurospora crassa. J. Biol. Chem. 264, 1725017258.
  • [81]
    Burton, K.S. (1986) Quality-Investigations into mushroom browning. Mushroom J. 158, 6870.
  • [82]
    Sasaoka, K., Ogawar, T., Tsuji, H., Bando, N. (1980) Incorporation of radioactive shikimic acid into N(gamma-L-glutamyl)-4-hydroxyaniline in Agaricus bisporus. Biochim. Biophys. Acta 630, 137140.
  • [83]
    Hegnauer, H., Nyhlen, L.F., Rast, D.H. (1985) Ultrastructure of native and synthetic Agaricus bisporus melanins-Implications as to the compartmentation of melanogenesis in fungi. Exp. Mycol. 9, 221229.
  • [84]
    Bell, A.E., Wheeler, M.H. (1986) Biosynthesis and functions of fungal melanins. Ann. Rev. Phytopathol. 24, 411451.
  • [85]
    Fahy, P.C., Nair, N.G., Bradley, J.K. (1981) Epidemiology and biological control of bacterial blotch caused by Pseudomonas tolaasii. Mushroom Sci. 11, 343352.
  • [86]
    Wong, W.C., Preece, T.F. (1980) Pseudomonas tolaasii in mushroom crops: a note on primary and secondary sources of the bacterium on a commercial farm in England. J. Appl. Bacteriol. 49, 305314.
  • [87]
    Samson, R., Houdeau, G., Khanna, P., Guillaumes, J. and Olivier, J.M. (1987) Variability of fluorescent Pseudomonas populations in composts and casing soils used for mushroom cultures. In: Cultivating Edible Fungi (Wuest, P.J., Ed.), pp. 19–26, PA.
  • [88]
    Preece, T.F., Wong, W.C. (1982) Pseudomonas tolaasii in cultivated mushroom (Agaricus bisporus) crops: Numbers of the bacterium and symptom development on mushrooms grown in various environments after artificial inoculation. J. Appl. Bacteriol. 53, 8796.
  • [89]
    Soler-Rivas, C. (1998) Molecular aspects of the bacterial blotch disease of Agaricus bisporus. Ph.D. Thesis, University Claude-Bernard, Lyon.
  • [90]
    Olivier, J.M., Mamoun, M., Munsh, P. (1997) Standardization of a method to assess mushroom blotch resistance in cultivated and wild Agaricus bisporus. Can. J. Plant Pathol. 19, 3642.
  • [91]
    Nair, N.G., Fahy, P.C. (1972) Bacteria antagonistic to Pseudomonas tolaasii and their control of brown blotch of the cultivated mushroom Agaricus bisporus. J. Appl. Bacteriol. 35, 439442.
  • [92]
    Guillorit-Rondeau, C., Malandrin, L., Samson, R. (1996) Identification of two serological flagellar types (H1 and H2) in Pseudomonas syringae pathovars. Eur. J. Plant Pathol. 102, 99104.
  • [93]
    Grewal, S.I.S., Rainey, P.B. (1991) Phenotypic variation of Pseudomonas putida and Pseudomonas tolaasii affects the chemotactic response to Agaricus bisporus mycelial exudate. J. Gen. Microbiol. 137, 27612768.
  • [94]
    Rainey, P.B. (1991) Phenotypic variation of Pseudomonas putida and Pseudomonas tolaasii affects attachment to Agaricus bisporus mycelium. J. Gen. Microbiol. 137, 27692780.
  • [95]
    Preece, T.F., Wong, W.C. (1982) Quantitative and scanning electron microscope observations on the attachment of Pseudomonas tolaasii and other bacteria to the surface of Agaricus bisporus. Physiol. Plant Pathol. 21, 251257.
  • [96]
    Eicker, A., Smit, M., Wuest, P.J. (1989) A scanning electron microscope study of troublesome fungi in the Agaricus bisporus mushroom industry. Mushroom Sci. 12, 789801.
  • [97]
    Masaphy, S., Bevanon, D., Tchelet, R., Henis, Y. (1987) Scanning electron microscope studies of interactions between Agaricus bisporus (Lang) sing hyphae and bacteria in casing soil. Appl. Environ. Microbiol. 53, 11321137.
  • [98]
    Cochet, N., Gillman, A., Lebeault, J.M. (1992) Some biological charateristics of the casing soil and their effect during Agaricus bisporus fructification. Acta Biotechnol. 12, 411419.
  • [99]
    Costerton, J.W. (1985) The role of bacterial exopolysaccharides in nature and disease. Dev. Ind. Microbiol. 26, 249261.
  • [100]
    Cole, A.L.J., Skellerup, M.V. (1986) Ultrastructure of the interaction of Agaricus bisporus and Pseudomonas tolaasii. Trans. Br. Mycol. Soc. 87, 314316.
  • [101]
    Rahimian, H., Zarel, A. (1996) Association of a Pseudomonas species with basidiocarp collapse of scleroderma. Iran. J. Plant Pathol. 32 27.
  • [102]
    Fletcher, J.T. (1992) Disease resistance in protected crops and mushrooms. Euphytica 63, 3349.
  • [103]
    Rama, T., Mamoun, M., Olivier, J.M. (1995) Rapid extraction of a bacteria free fraction inducing blotch symptoms on Agaricus bisporus. Mushroom Sci. 14, 571577.
  • [104]
    Moquet, F., Mamoun, M., Olivier, J.M. (1996) Pseudomonas tolaasii and tolaasin: Comparison of symptom induction on a wide range of Agaricus bisporus strains. FEMS Microbiol. Lett. 142, 99103.
  • [105]
    Moquet, F. (1998) Amelioration du champignon de Paris, Agaricus bisporus (Lange) pour la resistance au brunissement bacterien cause par Pseudomonas tolaasii. Relation avec la couleur naturelle du sporophore. Ph.D. Thesis, Institut National Agronomique Paris-Grignon. Paris.
  • [106]
    Thorn, R.G., Tsuneda, A. (1992) Interactions between various wood-decay fungi and bacteria: antibiosis, attack, lysis, or inhibition. Rep. Tottori Mycol. Inst. 30, 1320.
  • [107]
    Tsuneda, A., Thorn, G. (1994) Interactions between Lentinula edodes and pseudomonads. Can. J. Microbiol. 40, 937943.
  • [108]
    Femor, T.R., Wood, D.A. (1981) Degradation of bacteria by Agaricus bisporus and other fungi. J. Gen. Microbiol. 126, 377387.
  • [109]
    Fermor, T.R., Grant, W.D. (1985) Degradation of fungal and actinomycete mycelia by Agaricus bisporus. J. Gen. Microbiol. 131, 17291734.
  • [110]
    Savoie, J.M. (1998) Changes in enzyme activities during early growth of the edible mushroom, Agaricus bisporus, in compost. Mycol. Res. 102, 11131118.
  • [111]
    Grant, W.D., Rhodes, L.L., Prosser, B.A., Asher, R.A. (1986) Production of bacteriolytic enzymes and degradation of bacteria by filamentous fungi. J. Gen. Microbiol. 132, 23532358.
  • [112]
    Grant, W.D., Fermor, T.R., Wood, D.A. (1984) Production of bacteriolytic enzymes and degradation of bacterial cell walls during growth of Agaricus bisporus on Bacillus subtillis. J. Gen. Microbiol. 130, 761769.
  • [113]
    Claydon, N. (1985) Secondary metabolic products of selected agarics. In: Developmental Biology of Higher Fungi (Moore, D., Casselton, L.A., Wood, D.A. and Frankland, J.C., Eds.), pp. 561–579. Cambridge University Press, Cambridge.
  • [114]
    Dragt, J.W., Geels, F.P., Rutjens, A.J., Van Griensven, L.J.L.D. (1995) Resistance in wild types of Agaricus bisporus to the mycoparasite Verticillium fungicola var. fungicola. Mushroom Sci. 14, 679683.
  • [115]
    Strominger, J.L., Ghuysen, J.M. (1967) Mechanisms of enzymatic bacteriolysis. Science 156, 213221.
  • [116]
    Soler-Rivas, C., Arpin, N., Olivier, J.M., Wichers, H.J. (1997) Activation of tyrosinase in Agaricus bisporus strains following infection by Pseudomonas tolaasii or treatment with a tolaasin-containing prepraration. Mycol. Res. 101, 375382.
  • [117]
    Soler Rivas, C., Jolivet, S., Yuksel, D., Arpin, N., Olivier, J.M., Wichers, H.J. (1998) Analysis of Agaricus bisporus tyrosinase activation and phenolics utilization during Pseudomonas tolaasii or tolaasin-induced discolouration. Mycol. Res. 102, 14971502.
  • [118]
    Flurkey, W.H. (1991) Identification of tyrosinase in mushrooms by isoelectric focusing. J. Food Sci. 56, 9395.
  • [119]
    Terashita, T., Oda, K., Kono, M., Murao, S. (1981) Purification and some properties of carboxyl proteinase in mycelium of Lentinula edodes. Agric. Biol. Chem. 45, 19291935.
  • [120]
    Burton, K.S. (1988) The effects of storage and development on Agaricus bisporus proteases. J. Hort. Sci. 63, 103108.
  • [121]
    Burton, K.S., Partis, M.D., Wood, D.A., Thurston, C.F. (1997) Accumulation of serine proteinase in senescent sporophores of the cultivated mushroom, Agaricus bisporus. Mycol. Res. 101, 146152.
  • [122]
    Burton, K.S., Hammond, J.B.W., Minamide, T. (1994) Protease activity in Agaricus bisporus during periodic fruiting (flushing) and sporophore development. Curr. Microbiol. 28, 275278.
  • [123]
    Jiménez Cervantes, C., Garcı́a Borrón, J.C., Lozano, J.A., Solano, F. (1995) Effect of detergents and endogenous lipids on the activity and properties of tyrosinase and its related proteins. Biochim. Biophys. Acta 1243, 421430.
  • [124]
    Yamaguchi, M., Hwang, P.M., Campbell, J.D. (1970) Latent ortho-diphenol oxidase in mushrooms (Agaricus bisporus). Can. J. Biochem. 48, 198202.
  • [125]
    Tu, C.C., Liao, Y.M. (1989) Major diseases of cultivated mushroom and their control in Taiwan. Mushroom Sci. 12, 615626.
  • [126]
    Nair, N.G. (1974) Methods of control for bacterial blotch disease of the cultivated mushroom with special reference to biological control. Mushroom J. 16, 140144.
  • [127]
    Royse, D.J., Wuest, P.J. (1980) Mushroom brown blotch: effects of chlorinated water on disease intensity and bacterial populations in casing soil and on pilei. Phytopathology 70, 902905.
  • [128]
    Solomon, J.M., Beelman, R.B., Bartley, C.E. (1991) Addition of calcium chloride and stabilized chlorine dioxide to irrigation water to improve quality and shelf life of Agaricus bisporus. Mushroom Sci. 13, 695701.
  • [129]
    Geels, F.P., Van Griensven, L.J.l.D., Rutjens, A.J. (1991) Chlorine dioxide and the control of bacterial blotch on mushrooms, caused by Pseudomonas tolaasii. Mushroom Sci. 13, 437442.
  • [130]
    Vantomme, R., Overstijns, A., Goor, M., Kersters, K., Ley, J.d. (1989) Routine diagnosis and sensitivity to chemical compounds of phytopathogenic and saprophytic pseudomonads from cultivated mushrooms. Mushroom Sci. 12, 701710.
  • [131]
    Lelley, J. (1984) Comparative evaluation of disinfectants for mushroom cultivation. Champignon 271, 1424.
  • [132]
    Wong, W.C., Preece, T.F. (1985) Pseudomonas tolaasii on mushroom (Agaricus bisporus) crops: bacterial effects of six disinfectants and their toxicity to mushrooms. J. Appl. Bacteriol. 58, 269273.
  • [133]
    Munjal, A., Khanna, P.K., Garcha, H.S. (1989) In vitro chemical and biological control of bacterial blotch of Agaricus bisporus (Sing.) Lange. Mushroom Sci. 12, 667677.
  • [134]
    Geels, F.P. (1995) Pseudomonas tolaasii control by kasugamycin in cultivated mushrooms (Agaricus bisporus). J. Appl. Bacteriol. 79, 3842.
  • [135]
    Nair, N.G., Fahy, P.C. (1972) Prospects for biological control of brown blotch. MGA-Bull. 270, 252254.
  • [136]
    Fermor, T.R., Henry, M.B., Fenlon, J.S., Glenister, M.J., Lincoln, S.P., Lynch, J.M. (1991) Development and application of a biocontrol system for bacterial blotch of the cultivated mushroom. Crop Prot. 10, 271278.
  • [137]
    Fermor, T.R., Lynch, J.M. (1988) Bacterial blotch disease of the cultivated mushroom Agaricus bisporus: Screening, isolation and characterization of bacteria antagonistic to the pathogen (Pseudomonas tolaasii). J. Appl. Bacteriol. 65, 179188.
  • [138]
    Healey, K.W., Harvey, J.M. (1989) Control of Pseudomonas tolaasii by Pseudomonas fluorescens. Aust. J. Biotechnol. 3, 250251.
  • [139]
    Khanna, P.K., Olivier, J.M., Samson, R.S., Guillaumes, J. (1990) Isolation, characterization and screening of antagonists of Pseudomonas tolaasii for biological control. Indian Phytopathol. 43, 352360.
  • [140]
    Guillaumes, J., Germain, V., Houdeau, G., Olivier, J.M. (1985) Some considerations on a new bacterial disease in French mushroom farms. Mushroom Inf. 12, 3843.
  • [141]
    Munsch, P., Olivier, J.M. (1995) Biocontrol of bacterial blotch of the cultivated mushroom with lytic phages: some practical considerations. Mushroom Sci. 14, 595602.
  • [142]
    Grewal, P.S. (1991) Effects of Caenorhabditis elegans (Nematoda: Rhabditidae) on the spread of the bacterium Pseudomonas tolaasii in mushrooms (Agaricus bisporus). Ann. Appl. Biol. 118, 4756.
  • [143]
    Grewal, P.S., Hand, P. (1992) Effects of bacteria isolated from a saprophagous rhabditid nematode Caenorhabditis elegans on the mycelial growth of Agaricus bisporus. J. Appl. Bacteriol. 72, 173179.
  • [144]
    Callac, P., Imbernon, M., Kerrigan, R.W. and Olivier, J.M. (1996) The two life cycles of Agaricus bisporus. In: Mushroom Biology and Mushroom Products (Royse, D.J., Ed.), pp. 57–66. Penn State University Press, PA.
  • [145]
    Begin, M.D., Spear, M. (1991) A novel method for inducing the expresion of sectors in Agaricus bisporus. Mushroom Sci. 13, 105109.
  • [146]
    Challen, M.P., Rao, B.G., Elliot, T.J. (1991) Molecular biology of edible fungi. Mushroom Sci. 13, 227234.
  • [147]
    Rhee, M.D.v.d., Graça, P.M.A., Huizing, H.J., Mooibroek, H. (1996) Transformation of the cultivated mushroom, Agaricus bisporus, to hygromycin B resistance. Mol. Gen. Genet. 250, 252258.
  • [148]
    Rhee, M.D.v.d., Mendes, O., Werten, W.T., Huizing, H.J., Mooibroek, H. (1996) Highly efficient homologous integration via tandem exo-b-1, 3-glucanase genes in the common mushroom, Agaricus bisporus. Curr. Genet. 30, 166173.
  • [149]
    Groot, M.J.A.d., Bundock, P., Hooykaas, P.J.J., Beijersbergen, A.G.M. (1998) Agrobacterium tumefaciens-mediated transformation of filamentous fungi. Nat. Biotechnol. 16, 839844.
  • [150]
    Mooibroek, H., Rhee, M.v.d., Soler-Rivas, C., Mendes, O., Werten, M., Huizing, H. and Wichers, H. (1996) Progress in transformation of the common mushroom, Agaricus bisporus. In: Mushroom Biology and Mushroom Products (Royse, D.J., Ed.), pp. 37–46. Penn State Univertsity, PA.
  • [151]
    Grewal, S.I.S., Johnstone, K., Hutchison, M.L. (1993) Transformation of Pseudomonas tolaasii by electroporation. Biomed. Lett. 48, 177183.
  • [152]
    Neu, T.R., Härtner, T., Poralla, K. (1990) Surface active properties of viscosin: a peptidolipid antibiotic. Appl. Microbiol. Biotechnol. 32, 518520.
  • [153]
    Stewart, W.W. (1971) Isolation and proof of structure of wildfire toxin. Nature 229, 174179.
  • [154]
    Moore, R.E., Niemczura, W.P., Kwork, O.C.M., Patil, S.S. (1984) Inhibitors of ornithine carbamoyl transferase from Pseudomonas syringae pv. paseolicola. Revised structure of phaseolotoxin. Tetrahedron Lett. 25, 39313934.
  • [155]
    Mitchell, R.E., Coddington, J.M., Young, H. (1989) A revised structure for tagetitoxin. Tetrahedron Lett. 30, 501504.
  • [156]
    Hutchison, M.L., Gross, D.C. (1997) Lipopeptide phytotoxins produced by Pseudomonas sytingae pv syringae: comparison of the biosurfactant and ion channel forming activities of syringopeptin and syringomycin. Mol. Plant-Microbe Inter. 10, 347354.