Correlation Between Hydrolytic Enzyme Activities Measured In Bean Seedlings After Trichoderma Koningii Treatment Combined With Pregermination And The Protective Effect Against Pythium Splendens
Cotes, Am.; Lepoivre, Philippe; Semal, J.
1996 • In European Journal of Plant Pathology, 102 (5), p. 497-506
Correlation Between Hydrolytic Enzyme Activities Measured In Bean Seedlings After Trichoderma Koningii Treatment Combined With Pregermination And The Protective Effect Against Pythium Splendens
Adams PB (1990) The potential of mycoparasites for biological control of plant diseases. Ann Rev Phytopatol 28: 59-72
Ahmad JS and Baker R (1987) Rhizosphere competence of Trichoderma harzianum. Phytopathology 77: 182-189
Arlorio M, Ludwig A, Boller T and Bonfante P (1992) Inhibition of fungal growth by plant chitinases and β-1,3-glucanases. Protoplasma 171: 34-43
Bartnicki-Garcia S (1968) Cell wall chemistry morphogenesis and taxonomy of fungi. Ann Rev Microbiol 22: 87-108
Broglie KE, Gaynor JJ and Broglie RM (1986) Ethylene-regulated gene expression: molecular cloning of genes encoding an endochitinase from Phaseolus vulgaris. Proc Natl Acad Sci USA. 83: 6820-6824
Cervone F, De Lorenzo G, Salvi G, Bergmann C, Hahn MG, Ito Y, Darvill A and Albersheim P (1989) Release of phytoalexin elicitor-active oligogalacturonidesby microbial pectic enzymes. Nato ASI series. Signal Molecules in Plants and Plant-Microbe Interactions 36: 85-89
Cherif M, Benhamou M and Bélanger RR (1993) Occurrence of cellulose and chitin in the hyphal walls of Pythium ultimum: a comparative study with other plant pathogenic fungi. Can J Microbiol 39: 213-222
Chet I (1987) Trichoderma-application, mode of action, and potential as biocontrol agent of soil borne plant pathogenic fungi. In: Innovative Approaches to Plant Disease Control (pp. 137-160) Ed Chet, Wiley & Sons New York
Cook RJ and Baker KF (1983) The nature and practice of biological control of plant pathogens. St. Paul, Minn: Am. Phytopathol Soc 539 pp
Cotes AM, Lepoivre P and Semal J (1992) Effect of precolonization of bean seeds with Trichoderma, on symptoms induced by Pythium. Med Fac Landbouww Univ Gent 57/2b: 355-363
Cotes AM, Lepoivre P and Semal J (1994a) Correlation between carboxymethycellulase activity, colonization of bean seed coat by Trichoderma, and protection against Pythium In: Diseases and Insects in Forest Nurseries, Dijon (France), October 3-10, 1993 (pp. 179-188) Ed INRA, Paris (Les colloques, no 68)
Cotes AM, Thonart P and Lepoivre P (1994b) Relationship between the protective activities of several strains of Trichoderma against damping-off agents and their ability to produce hydrolytic enzymes activities in soil or in synthetic media. Med Fac Landbouww Univ Gent 59/3a: 931-941
Elad Y, Chet I and Henis Y (1982) Degradation of plant pathogenic fungi by Trichoderma harzianum. Can J Microbiol 28: 719-725
Hadar Y, Harman GE and Taylor AG (1984) Evaluation of Trichoderma koningii and Ã. harzianum from New York soils for biological control of seed rot caused by Pythium spp. Phytopathology 74: 106-110
Harman FE, Taylor AG and Stasz TE (1989) Combining effective strains of Trichoderma harzianum and solid matrix priming to improve biological seed treatments. Plant Disease 73: 631-637
Harman GE, Chet I and Baker R (1980) Trichoderma hamatum effects on seed and seedling disease induced in radish and pea by Pythium spp. or Rhizoctorda solani. Phytopatology 70: 1167-1172
Jones D, Gordon AH and Bacon SD (1974) Co-operative action by endo and exo-β-(1-3)-glucanases from parasitic fungi in the degradation of cell-wall glucans of Sclerotinia sclerotiorum (Lib) de Bary. Biochem 140: 47-55
Joosten MH and De wit JGM (1988) Identification of several pathogenesis-related proteins in tomato leaves inoculated with Cladosporium fulvum (syn. Fulvia fulva) as 1,3-β-glucanases and chitinases. Plant Physiol 89: 945-951
Keen NT, Yoshikawa M and Wang MC (1983) Phytoalexin elicitor activity of carbohydrates from Phytophthora megasperma f. sp. glycinea and other sources. Plant Physiol 71: 466-471
Kombrink E and Hahlbrock K (1986) Responses of cultured parsley cells to elicitors from phytopathogenic fungi. Plant Physiol 81: 216-221
Lewis JA and Papavizas GC (1987) Application of Trichoderma and Gliocladium in alginate pellets for control of Rhizoctonia damping-off. Plant Pathology 36: 438-446
Lifshitz R, Windham MT and Baker R (1986) Mechanisms of biological control of preemergence damping-off of pea by seed treatment with Trichoderma spp. Phytopathology 76: 720-725
Lorito M, Harman GE, Hayes CK, Broadway RM, Tronsmo A, Woo SL and Di Pietro A (1993) Chitinolytic enzymes produced by Trichoderma harzianum. Antifungal activity of purified endochitinase and chitobiosidase. Phytopathology 83: 302-307
Mezui M'ella JG, Cotes AM and Lepoivre P (1994) In vitro evaluation of seed priming and Trichoderma treatment for the biological control of damping-off In: Diseases and Insects in Forest Nurseries, Dijon (France), October 3-10, 1993 (pp. 189-196) Ed INRA, Paris (Les colloques, no68)
Nelson N (1944) A photometric adaptation of the Somogyi method for the determination of glucose. J Biol Chem 153: 375-380
Reissig JL, Srominger JL and Leloir LF (1955) A modified colorimetric method for the estimation of N-acetylamino sugars. J Biol Chem 217: 959-966
Somogyi M (1952) Notes on sugar determination. J. Biol. Chem. 195: 19-23
Young DH and Pegg GF (1982) The action of tomato and Verticillium albo-atrum glycosidases on the hyphal wall of V. albo-atrum. Physiological Plant Pathology 21: 411-423