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Brefeldin A-induced structural changes in the endomembrane system of a filamentous fungus,Magnaporthe grisea (1996)

Bourett, T. M. ; Howard, R. J.

Springer

Protoplasma 190 (1996), S. 151-163

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ISSN: 1615-6102

Keywords: Brefeldin A ; Freeze substitution ; Filamentous fungus ; Hypha ; Lectin cytochemistry ; Tip growth

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Subcellular compartments comprising the endomembrane system in filamentous fungi are poorly characterized with most showing significant morphological differences from eukaryotic cells. For example, many filamentous fungi lack stacked Golgi-body cisternae, but contain “Golgi equivalents” — single cisternae or tubules which appear to serve the same functions. To help identify fungal endomembrane compartments and interrelationships between them we used a pharmacological agent, brefeldin A, known to affect specific endomembrane organelles in other organisms, most prominently the Golgi apparatus. At 10 μg/ml brefeldin A, radial hyphal growth of the rice blast pathogenMagnaporthe grisea on solid agar medium was reduced by 96% over an initial 48 h, but recovered and was reduced by only 20% over a subsequent 72 h exposure. Light microscopic examination of individual living hyphae showed that apical elongation generally halted within 1 min after exposure to brefeldin A. Acute effects of 14 μg/ml brefeldin A were characterized ultrasiructurally in cells prepared by freeze substitution. These included the appearance of two types of cisternae with unusual morphology, associated with ca. 45 nm diameter vesicles, as well as the unexpected persistence and increase in complexity of the Golgi equivalents. Also observed were (1) reduced numbers of apicale vesicles and disruption of Spitzenkörper organization, (2) apical clusters of 30–35 nm diameter microvesicles and associated tubular arrays, (3) dilation of rough endoplasmic reticulum, (4) packets of membrane-bounded electron-opaque cell wall inclusions, and (5) altered morphology of some vacuolar compartments. The distribution of concanavalin A binding sites, previously mapped to particular endomembrane compartments, was documented to aid the interpretation of these results. We conclude that brefeldin A effects on cells ofM. grisea differ from those reported with plant and animal cells, perhaps reflecting underlying differences in the endomembrane systems among these eukaryotes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01281314

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Actin in penetration pegs of the fungal rice blast pathogen,Magnaporthe grisea (1992)

Bourett, T. M. ; Howard, R. J.

Springer

Protoplasma 168 (1992), S. 20-26

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ISSN: 1615-6102

Keywords: Appressoria ; Freeze substitution ; Immunofluorescence ; Plant disease ; Phalloidin ; Pyricularia

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The penetration peg is the structure used byMagnaporthe grisea to pierce the surface of rice leaves or very hard nonbiodegradable substrates. Penetration pegs produced by appressoria in vitro were examined by electron microscopy and immunofluorescence microscopy using various fluorophore labeled anti-actins. Freeze-substitution preparation of appressoria at early stages of substrate penetration showed that peg cytoplasm consisted primarily of a zone of exclusion, excluding even ribosomes, and was continuous with a similar region in the appressorium. Apical vesicles were, however, observed in short, presumably elongating pegs. Immunofluorescence microscopy was used to demonstrate binding of a monoclonal anti-actin to penetration peg cytoplasm, following “permeabilization” of appressoria by means of a brief sonication. Occasional filaments and ca. 300 nm diameter plaques were labeled in appressorial cytoplasm. Western blot analysis of germ tube extracts showed that the monoclonal probe bound predominantly to a single band with a molecular weight similar to that of rabbit muscle actin. Preincubation of the antibody with actin virtually eliminated peg labeling. We conclude that the penetration peg contains actin which may play a role in the formation of the zone of exclusion.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01332647

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Adhesion of fungal spores and germlings to host plant surfaces (1994)

Braun, E. J. ; Howard, R. J.

Springer

Protoplasma 181 (1994), S. 202-212

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ISSN: 1615-6102

Keywords: Fungal adhesion ; Appressoria ; Plant disease ; Cochliobolus heterostrophus ; Magnaporthe grisea ; Nectria haematococca ; Uromyces spp

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Firm adhesion of fungal plant pathogens to their hosts is critical at several stages in the host-parasite interaction. Spores of many fungal species are capable of rapid, non-specific attachment to various surfaces. This early adhesion, which often occurs well before germ tube emergence, prevents spores from being blown or washed from the host surface before infection can take place. Adhesion is critical for proper sensing of topographic signals involved in thigmotropic responses and for differentiation and function of appressoria. Four fungal pathogens which exhibit a variety of adhesion mechanisms have been selected for discussion.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01666396

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