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Ultrastructure and composition of the cell surfaces of infection structures formed by the fungal plant pathogen Colletotrichum lindemuthianum
Authors:R. J. O'CONNELL,N. A. PAIN,K. A. HUTCHISON,G. L. JONES,&   J. R. GREEN
Affiliation:IACR-Long Ashton Research Station, Department of Agricultural Sciences, University of Bristol, Long Ashton, Bristol BS18 9AF, U.K.;, School of Biological Sciences, University of Birmingham, PO Box 363, Birmingham B15 2TT, U.K.
Abstract:A variety of microscopical techniques and molecular probes have been used to study the ultrastructure and composition of the cell surfaces of the conidia (i.e. spores) and infection structures produced by the hemibiotrophic fungal plant pathogen Colletotrichum lindemuthianum. The fungal conidium germinates to produce a germ-tube, the tip of which swells to produce a domed, melanized appressorium which adheres firmly to the plant surface. Penetration of the cuticle and cell wall is followed by the development of a biotrophic intracellular hypha, which is surrounded by an invagination of the host plasma membrane. Freeze-substitution of C. lindemuthianum germlings showed that conidia are coated with a dense layer of fibrillar material. This 'spore coat' contains irregularly shaped pores, giving it a reticular appearance. Negative staining of germlings revealed the presence of numerous long, flexuous fibres or fimbriae, protruding from the surfaces of germ-tubes and appressoria. Colloidal gold was used to visualize fungal extracellular proteins. The colloidal gold stained a fibrillar sheath around germ-tubes, whereas appressoria were surrounded by a halo, comprising an inner unstained region and a stained perimeter. The carbohydrate composition of the cell surfaces of the conidia and infection structures was studied by labelling cells with rhodamine- and fluorescein-conjugated lectins. The results showed that the extracellular matrices of germ-tubes and appressoria are very similar in composition, but differ from those of conidia and intracellular hyphae. Monoclonal antibodies have been prepared to germlings and infection structures of C. lindemuthianum and their use has provided further evidence that the extracellular matrices around germ-tubes and appressoria have several glycoproteins in common. The results also show that the cell surface of C. lindemuthianum becomes specialized during biotrophic development inside host cells.
Keywords:Appressoria    biotrophy    Colletotrichum    conidia    extracellular matrix    extracellular glycoproteins    fimbriae    germ-tubes    intracellular hyphae    lectin    monoclonal antibody
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