S. Coloe scite author profile

Diagnosis of dermatophytosis employing conventional laboratory procedures has been complicated by the slow growth and varied morphological features shown by dermatophytes. After analysis of the nucleotide base sequences of a 1.2-kb fragment ampli®ed from a dermatophyte fungus Trichophyton rubrum by arbitrarily primed PCR with random primer OPD18, a pair of primers (TR1F and TR1R) was designed and evaluated for speci®c identi®cation of T. rubrum. The sensitivity of the primers TR1F and TR1R was high, as a speci®c PCR band of c. 600 bp was detected from as little as 7 pg of T. rubrum DNA. By examining 92 dermatophyte strains and clinical isolates, it was found that this pair of primers reacted in PCR with T. rubrum, T. soudanense and T. gourvilii through formation of the speci®c fragment of 600 bp, but not with any other of the dermatophyte species or varieties, fungi, yeasts or bacteria tested. As T. rubrum is one of the most frequently isolated dermatophyte fungi, and T. soudanense and T. gourvilii are relatively uncommon in many parts of the world, these primers can be used for rapid, sensitive and speci®c identi®cation and differentiation of T. rubrum from other fungi and micro-organisms.

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Molecular determination of dermatophyte fungi using the arbitrarily primed polymerase chain reaction

Liu¹,

Coloe²,

Baird³

et al. 1997

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Dermatophytes are keratinophilic fungi capable of causing dermatophytosis (commonly known as tinea or ringworm) in humans and animals. Previously, we reported the differentiation of the common dermatophytes Trichophyton rubrum, T. mentagrophytes and T. tonsurans using a random primer 5'-ACCCGACCTG-3' (OPAA11) in the arbitrarily primed polymerase chain reaction (AP-PCR). In the present study, by examining additional dermatophytes including eight Microsporum spp., 16 Trichophyton species/subspecies and Epidermophyton floccosum using both OPAA11 and a second random decamer 5'-GAGAGCCAAC-3' (OPD18) in AP-PCR, we show that except for T. rubrum and T. gourvilli, and three T. mentagrophytes varieties, most of the dermatophyte fungi investigated formed distinct DNA band patterns on gel electrophoresis. The amplification of specific DNA bands in AP-PCR appeared to be independent of culture variations shown by dermatophyte isolates. These results provide the basis for the rapid identification of dermatophytes at the genetic level, supplementing existing laboratory methods and improving the diagnosis of human dermatophytosis.

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PCR Identification of Trichophyton Mentagrophytes Var. Interdigitale And T. Mentagrophytes var. Mentagrophytes Dermatophytes with a Random Primer

Liu¹,

Coloe²,

Baird³

et al. 1997

Journal of Medical Microbiology

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S. Coloe

Application of PCR to the identification of dermatophyte fungi

PCR identification of dermatophyte fungi Trichophyton rubrum, T. soudanense and T. gourvilii

Molecular determination of dermatophyte fungi using the arbitrarily primed polymerase chain reaction

PCR Identification of Trichophyton Mentagrophytes Var. Interdigitale And T. Mentagrophytes var. Mentagrophytes Dermatophytes with a Random Primer

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