Marvin F. Field scite author profile

Fine details of the internal and external morphology of the yeastlike and mycelial phases of the dimorphic fungal pathogen Sporotrichum schenckii as seen in ultrathin sections are described and illustrated by electronphotomicrography. Comparisons of yeastlike phase ultrastructure were made using two different methods of fixation and embedding. The internal morphology of the two forms of yeastlike S. schenckii was in many ways similar to that of similarly dimorphic fungi and yeasts studied by other authors. However, the use of the glutaraldehyde-osmium in agar fixation technique suggests the presence of an electron transparent capsular or slime layer with associated electron dense microfibrils to be present external to the cell wall of the yeastlike phase but not the mycelial phase. Mycelial phase S. schenckii was found to contain many of the internal microstructures reported for other filamentous dimorphic fungi. Conidia production in agitated liquid culture was found to be restricted since only rare sessile conidia were observed.

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GROWTH STIMULATING EFFECT OF AUTOCLAVED GLUCOSE MEDIA AND ITS RELATIONSHIP TO THE CO ₂ REQUIREMENT OF PROPIONIBACTERIA

Field

Lichstein

1958

J Bacteriol

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Ultrastructural Changes During the Yeastlike to Mycelial-Phase Conversion ofBlastomyces dermatitidisandHistoplasma capsulatum

1970

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Fine details of the sequential anatomical events occurring during yeast to mold morphogenesis of the dimorphic fungal pathogens Blastomyces dermatitidis and Histoplasma capsulatum as seen in ultrathin sections are described and illustrated by electron micrographs. Discrete intracytoplasmic membrane systems intimately associated with the plasma membrane were observed to be formed within 6 to 8 hr after induction of the conversion process. Within 12 to 18 hr, an intermediate or transitional cell with Woronin bodies at the septum was formed from the converting yeastlike cell. Both cells were noted to contain increased numbers of mitochondria. At approximately 48 hr from the initial induction of the conversion stimuli, the newly forming hyphal cells were observed to produce postconversional intracytoplasmic membrane systems seen normally in the ultrastructural organization of the fully established mycelial-phase cell. These membrane systems appear to be associated with normal septal formation. Although minor variations of time were observed in the occurrence of the sequential events, it is suggested that yeastlike to mycelial-phase conversion of these two fungal pathogens proceeds via a similar mechanism of ultrastructural reorganization.

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Rabies Vaccination in a Small Zoo: Antibody Titers Studies

Haigh¹,

Field²

1981

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Marvin F. Field

Factors Affecting the Growth of Propionibacteria

Ultrastructural Studies on the Yeastlike and Mycelial Phases of Sporotrichum schenckii

GROWTH STIMULATING EFFECT OF AUTOCLAVED GLUCOSE MEDIA AND ITS RELATIONSHIP TO THE CO ₂ REQUIREMENT OF PROPIONIBACTERIA

Ultrastructural Changes During the Yeastlike to Mycelial-Phase Conversion ofBlastomyces dermatitidisandHistoplasma capsulatum

Rabies Vaccination in a Small Zoo: Antibody Titers Studies

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About

Marvin F. Field

Factors Affecting the Growth of Propionibacteria

Ultrastructural Studies on the Yeastlike and Mycelial Phases of Sporotrichum schenckii

GROWTH STIMULATING EFFECT OF AUTOCLAVED GLUCOSE MEDIA AND ITS RELATIONSHIP TO THE CO 2 REQUIREMENT OF PROPIONIBACTERIA

Ultrastructural Changes During the Yeastlike to Mycelial-Phase Conversion ofBlastomyces dermatitidisandHistoplasma capsulatum

Rabies Vaccination in a Small Zoo: Antibody Titers Studies

Contact Info

Product

Resources

About

GROWTH STIMULATING EFFECT OF AUTOCLAVED GLUCOSE MEDIA AND ITS RELATIONSHIP TO THE CO ₂ REQUIREMENT OF PROPIONIBACTERIA