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Mycoses (Berlin), 2020
In recent years, methylene blue mediated‐photodynamic therapy (MB‐PDT) has proved to be an effective inhibitor to a variety of microorganisms, including Trichophyton rubrum, the most common dermatophyte worldwide. However, previous studies mainly focused
Chanchan Li +4 more
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In recent years, methylene blue mediated‐photodynamic therapy (MB‐PDT) has proved to be an effective inhibitor to a variety of microorganisms, including Trichophyton rubrum, the most common dermatophyte worldwide. However, previous studies mainly focused
Chanchan Li +4 more
semanticscholar +1 more source
Variation in Trichophyton Rubrum
Mycologia, 1978Fayod, V. 1883. Beitrag zur Kenntnis niederer Myxomyceten. Bot. Zeit. 41: 169-177. Hsia, W. 1962. A comparative study of some strains of the Guttulinaceae. M.S. Thesis, University of Wisconsin. Nesom, M. G. 1973. Life cycle and ultrastructure of the cellular slime mold, Copromyxa arborescens. Ph.D.
P. M. Chaphekar +2 more
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Phospholipids ofTrichophyton rubrum
Medical Mycology, 1974Trichophyton rubrum grown in Sabouraud's liquid medium contains phosphatidyl inositol, polyphosphatidyl inositol, phosphatidyl choline, phosphatidyl serine, phosphatidyl ethanolamine phosphatidyl glycerol and phosphatidic acid in the polar lipid fraction of its mycelia.
S.K. Das, A.B. Banerjee
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The Trichophyton rubrum Complex
2021The most important species of the Trichophyton rubrum complex are T. rubrum, causing mainly skin and nail infections, and Trichophyton violaceum, and Trichophyton soudanense, which are mostly associated with Tinea capitis. Despite their close similarity, recent polyphasic studies confirm their position as valid and independent species with distinct ...
Marijke Hendrickx +2 more
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The detection of contamination in Trichophyton rubrum and trichophyton mentagrophytes
Mycopathologia et Mycologia Applicata, 1971This report concerns the usefulness of two media, brain heart infusion agar (BHIA) and BCP milk dextrose agar in the detection of contamination inT. rubrum andT. mentagrophytes and provides cultural information in the identification of these species.
J. Kane, J. B. Fischer
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The fatty acids of trichophyton rubrum
Mycopathologia et Mycologia Applicata, 1966The fatty acids ofTrichophyton rubrum found during the logarithmic growth phase and during the early and late stationary phases of growth were separated and identified by gas chromatography. At all three stages of growth, the most abundant fatty acids were palmitic, stearic, octadecenoic and octadecadienoic which, together, accounted for 85–93% of the ...
E. E. Vicher +3 more
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Trichophyton rubrum Infection of the Diaper Area [PDF]
Archives of Dermatology, 1982 Rashes in the diaper area are among the most common dermatologic disorders seen in infants. Although the differential diagnosis of eruptions in the diaper area is extensive,Trichophyton rubruminfection is usually not included.1,2We have recently reported the presence ofT rubruminfection in the diaper area of a 9-month-old infant and were unable to find
John Dean Greeson +1 more
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Pigments in Trichophyton rubrum
Nature, 1957ALTHOUGH observations on the colouring matter produced by Trichophyton rubrum had been made by Tate in 19291, and were verified and extended by Thompson2, no attempt to isolate and identify the pigments involved has been recorded in the literature. A more systematic examination of these pigments is therefore being carried out in this laboratory.
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Differentiation of trichophyton rubrum from trichophyton mentagrophytes
Mycopathologia et mycologia applicata, 1963Of the several morphological and physiological criteria that have been proposed to identifyTrichophyton rubrum andTrichophyton mentagrophytes differentially, only the hair invasion test agrees with the immunological results reported here. A typical strain ofT. rubrum andT.
James E. Dyson, Marshall E. Landay
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THE FATTY ACIDS OF TRICHOPHYTON RUBRUM
Canadian Journal of Microbiology, 1964The fatty acids of Trichophyton rubrum were investigated by gas liquid and by paper chromatography and chemical degradation. Palmitic, stearic, oleic, and linoleic acids are the principal ones in this organism, with linoleic acid predominating. Behenic acid was detected by paper chromatography.
S. R. Anand, John C. Wirth
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