beta-1,3-glucanase and resistance to Aspergillus flavus infection in maize

Studies of the activity levels of the fungal cell wall degradative enzyme, beta-1,3-glucanase, were carried out with Zea mays L. embryogenic callus cultures and kernels of genotypes with different abilities to resist aflatoxin formation on the ears. Dual-culture experiments of the aflatoxin forming...

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Bibliographic Details
Published in:Crop science 1998-09, Vol.38 (5), p.1255
Main Authors: Lozovaya, V.V. (University of Illinois, Urbana, IL.), Waranyuwat, A, Widholm, J.M
Format: Article
Language:English
Subjects:
ACTIVIDAD ENZIMATICA
ACTIVITE ENZYMATIQUE
AFLATOXINAS
AFLATOXINE
AFLATOXINS
ASPERGILLUS FLAVUS
BETA GLUCANASA
BETA GLUCANASE
CAL
CALLO
CALLOSE
CALLUS
CELL WALLS
Corn
CRECIMIENTO
CROISSANCE
CULTIVO DE TEJIDOS
CULTURE DE TISSU
CULTURE MEDIA
DISEASE RESISTANCE
Disease susceptibility
EMBRIOGENESIS SOMATICA
EMBRYOGENESE SOMATIQUE
Enzymes
ENZYMIC ACTIVITY
EXPERIMENTACION IN VIVO
EXPERIMENTAL INFECTION
EXPERIMENTATION IN VIVO
Fungal diseases of plants
Fungi
Genetic aspects
GENETIC RESISTANCE
Genetics
GENOTIPOS
GENOTYPE
GENOTYPES
GRAINE
GROWTH
IN VIVO EXPERIMENTATION
INFECCION EXPERIMENTAL
INFECTION EXPERIMENTALE
INHIBICION
INHIBITION
MAIS
MAIZ
MAIZE
MAIZE EARS
MEDIO DE CULTIVO
MILIEU DE CULTURE
PARED CELULAR
PAROI CELLULAIRE
Plant diseases
POLISACARIDOS
POLYHOLOSIDE
POLYSACCHARIDES
RESISTANCE AUX MALADIES
RESISTANCE GENETIQUE
RESISTENCIA A LA ENFERMEDAD
RESISTENCIA GENETICA
SEEDS
SEMILLA
SOMATIC EMBRYOGENESIS
TISSUE CULTURE
ZEA MAYS
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Summary:Studies of the activity levels of the fungal cell wall degradative enzyme, beta-1,3-glucanase, were carried out with Zea mays L. embryogenic callus cultures and kernels of genotypes with different abilities to resist aflatoxin formation on the ears. Dual-culture experiments of the aflatoxin forming fungus, Aspergillus flavus Link: Fr. with maize callus, demonstrated that the growth of A. flavus on plates was inhibited more by callus of a resistant genotype (Tex 6 x Mo17 denoted TXM) than by a sensitive genotype (Pa91). The inhibition correlated with the activity levels of beta-1,3-glucanase in the callus and in the culture medium. The presence of the fungus caused an increase in enzyme activity in TXM but not in Pa91 callus. Direct treatment of callus of both genotypes with A. flavus spores caused the amount of callose to increase within 30 min. An elevated beta-1,3-glucanase activity in maize kernels was also correlated with lower A. flavus infection observed in the resistant genotype (Tex 6) compared with a susceptible one (B73). Fungal inoculation of the ears increased the enzyme activities both in kernels in contact with and not in contact with the fungus. These studies indicate that beta-1,3-glucanase activity may have a role in the inhibition of growth of the A. flavus fungus, that maize embryogenic callus and kernels do respond to the presence of this nonpathogenic fungus, and that these systems might be useful in further plant-fungal interaction studies
ISSN:0011-183X
1435-0653
DOI:10.2135/cropsci1998.0011183X003800050024x