Marie Kopecká scite author profile

Congo red was applied to growing yeast cells and regenerating protoplasts in order to study its effects on wall biogenesis and cell morphogenesis. In the presence of the dye, the whole yeast cells grew and divided to form chains of connected cells showing aberrant wall structures on both sides of the septum. The wall-less protoplasts in solid medium with the dye exhibited an abnormal increase in volume, regeneration of aberrant cell walls and inability to carry out cytokinesis or protoplast reversion to cells. In liquid medium, the protoplasts synthesized glucan nets composed mainly of thin fibrils orientated at random, whereas normally, in the absence of dye, the nets consist of rather thick fibrils, 10 to 20 nm in width, assembled into broad ribbons. These fibrils are known to consist of triple 6/1 helical strands of (1----3)-beta-D-glucan aggregated laterally in crystalline packing. The thin fibrils (c. 4 to 8 nm wide) can contain only a few triple helical strands (c. 1.6 nm wide) and are supposed to be prevented from further aggregation and crystallization by complexing with Congo red on their surfaces. Some loose triple 6/1 helical strands (native elementary fibrils) are also discernible. They represent the first native (1----3)-beta-D-glucan elementary fibrils depicted by electron microscopy. The effects of Congo red on growth and the wall structure in normal cells and regenerating protoplasts in solid medium can be explained by the presence of a complex which the dye forms with (helical) chain parts of the glucan network and which results in a loss of rigidity by a blocked lateral interaction between the helices.

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Microtubules and actin cytoskeleton in Cryptococcus neoformans compared with ascomycetous budding and fission yeasts

Kopecká

Gabriel

Takeo

et al. 2001

European Journal of Cell Biology

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DEMONSTRATION OF A FIBRILLAR COMPONENT IN THE CELL WALL OF THE YEAST SACCHAROMYCES CEREVISIAE AND ITS CHEMICAL NATURE

Kopecká

Phaff

Fleet

1974

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The ultrastructure of isolated cell walls of Saccharomyces cerevisiae from the log and stationary phases of growth was studied after treatment with the following enzymes: purified endo-3-(1 -~ 3)-glucanase and endo-3-(l -~ 6)-glucanase produced by Bacillus circulans; purified exo-3-glucanase and endo-3-(1 ~ 3)-glucanase produced by Schizosaccharomyces versatilis; commercial Pronase. While exo-3-glucanase from S. versatilis had no electron microscopically detectable effect on the walls, Pronase removed part of the external amorphous wall material disclosing an amorphous wall layer in which fibrils were indistinctly visible. Amorphous wall material was completely removed by the effect of either endo-3-(l -~ 3)-or endo-3-(l ~ 6)-glucanase of B. circulans or by a mixture of the two enzymes. As a result of these treatments a continuous fibrillar component appeared, composed of densely interwoven microfibrils resisting further action by both of the B. circulans enzymes. The fibrillar wall component was also demonstrated in untreated cell walls by electron microscopy after negative staining. Because of the complete disappearance of the fibrils following treatment with the S. versatilis endo-3-(1 -~ 3)-glucanase it can be concluded that this fibrillar component is composed of 3-(1 --* 3)-linked glucan. Bud scars were the only wall structures resistant to the effect of the latter enzyme.

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Disruption of the actin cytoskeleton in budding yeast results in formation of an aberrant cell wall

Gabriel¹,

Kopecká

1995

Microbiology

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A temperature-sensitive, conditionally lethal actin mutant of Saccharomyces cerevisiae, DBY 1693, was used to study, using light and electron microscopy, dysfunction of the actin cytoskeleton in the morphogenesis of the cell wall. Cells of this mutant strain survived at least 24 h at the restrictive temperature (37 "C). These cells showed isodiametric growth. Mutant cells accumulated vesicles, probably as a consequence of chaotic secretory transport caused by loss of polarity. A conspicuous morphological response to the dysfunction of actin was the formation of an aberrant wall over the whole surface of the isodiametrically-growing cell. This wall was of loose texture with protruding glucan microfibrils incompletely masked with amorphous matrix. It resembled the regenerating cell wall on the surfaces of yeast protoplasts. The localization of wall synthesis over the whole surface of temperature sensitive actin mutant cells was in accordance with an even distribution of submembranous actin in the form of patches (similarly to regenerating protoplasts). Delocalization of finger-like invaginations of the plasma membrane from the bud region to the whole surface of the growing cell was also found in mutant cells.

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Marie Kopecká

The influence of Congo red on the cell wall and (1 → 3)-β-d-glucan microfibril biogenesis in Saccharomyces cerevisiae

Microtubules and actin cytoskeleton in Cryptococcus neoformans compared with ascomycetous budding and fission yeasts

DEMONSTRATION OF A FIBRILLAR COMPONENT IN THE CELL WALL OF THE YEAST SACCHAROMYCES CEREVISIAE AND ITS CHEMICAL NATURE

Disruption of the actin cytoskeleton in budding yeast results in formation of an aberrant cell wall

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