List of Articles Epidermophyton floccosum

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  1 - Molecular identification of subtilisin genes (SUB3 and SUB6) in Epidermophyton floccosum
  , E. Khedmati , SJ. Hashemi Hazaveh , M. Bayat , K. Amini
  Epidermophyton floccosum is one of the worldwide anthropophilic dermatophytes that invade keratinized structures such as hair, skin, and nail, causing dermatophytosis by secreting important proteases such as subtilisin. This study aimed to evaluate the presence of SUB3 More

  Epidermophyton floccosum is one of the worldwide anthropophilic dermatophytes that invade keratinized structures such as hair, skin, and nail, causing dermatophytosis by secreting important proteases such as subtilisin. This study aimed to evaluate the presence of SUB3 and SUB6 encoding serine proteases in the isolate, which received from the fungi culture collection of Tehran University of Medical Sciences, Faculty of Public Health. Special primers designed according to the highly conserved regions of similar genes in other dermatophytes. Genomic DNA and designed primers used in PCR, then PCR products sequenced with ABI PRISM®3730XL automated Sanger sequencer, and presence of 2 new subtilisin genes (SUB3 and SUB6) were confirmed and recorded in NCBI(with the accession numbers MN206114, MN177931 respectively). The coding sequence of SUB3 found to contain 861 nucleotides, which encodes a polypeptide with 287 amino acids. The coding sequence of SUB6 found to contain 699 nucleotides that encode a polypeptide with 233amino acids. Comparing the sequences with Gene Bank database information, revealed significant homology with other dermatophytes. Achieving a better understanding of the molecular characteristics of virulence genes may help develop effective therapies and prevention strategies. Manuscript profile
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  2 - Assessment of antifungal activity of Rosemary oil extract and its effect on AFL1 gene expression in Aspergillus flavus by Real-Time PCR
  Mojtaba Mohammadi Seyyed Jamal Hashemi Sasan Rezaei Mansour Bayat
  Background & Objectives: Rosemary is a very important medicinal herb which its effect on toxin-causing and pathogenic fungi is not studied very well. This study was aimed to investigate the antifungal effect of the extract of Rosemary extract on various fungal group More

  Background & Objectives: Rosemary is a very important medicinal herb which its effect on toxin-causing and pathogenic fungi is not studied very well. This study was aimed to investigate the antifungal effect of the extract of Rosemary extract on various fungal groups including Aspergillus flavus, Candida albicans, Epidermophyton floccussom, Trichophyton verrucosum and its effect on AFL1 gene expression in A. flavus using real-time PCR method. Achieving an effective herbal medicine can be significant due to the limited amount of antifungal drugs and the prevalence of antifungal drug resistance.   Materials & Methods: First of all A. flavus and C. albicans were cultured on sabouraud dextrose agar (SDA) media and T. verrucosum and E. floccosum were cultured on Mycocell agar media with 0.5 McFarland turbidity standard. Antifungal property of the rosemary extract was investigated using disk diffusion test. Then, the effective Rosemary extract concentration was evaluated using 10 standard tubes and sabouraud dextrose broth. Finally, the effect of Rosemary extract on AFL1 gene expression was examined.   Results: Our results indicated that Rosemary extract has an inhibitory effect on various types of fungi so that the mean diameter of the inhibition zone was measured as about 16 to 18 mm. The effective MCI for C. albicans was observed as approximately 4 to 6 mg / L, for A. flavus as 3 to 5 mg /L and for E. floccosum and T. verrucosum as 4 to 6 mg /L. RT-PCR analysis confirmed the inhibitory effect of Rosemary extracts on aflatoxin- producing  AFL1 gene expression at the molecular level, very well.   Conclusion: The extract of Rosemary can have a considerable inhibitory effect on fungal growth,  AFL1 gene expression and aflatoxin production in A. flavus.   Manuscript profile