SDA culture media

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Attuluri Vamsi Kumar, Assistant Professor, Division: MTL, SMAS, Galgotias University, UP.

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Experiment No - 1 preparation of fungal culture Media Sub code : BMLT5051 Sub Name: Virology and mycology Practical Department: Department of MLT, SMAS Faculty: A. Vamsi Kumar Designation : Assistant professor Sem- V

SYLLABUS OVERVIEW

Course outcomes On completion of this course, the student can be able to: Perform General steps will be done for the isolation and identification of the pathogenic fungi, include the type of specimen, direct microscopy, culture, staining techniques& serological test

Learning outcomes Identify the common characteristics of fungi Classify fungi into unique categories Describe the role that fungi play in the ecosystem Identify common fungal parasites and pathogens

Fungal culture media

Sabouraud Dextrose Agar (SDA) Aim, Introduction, Principle, Materials required, composition, Procedure Results interpretation ( i.e : colony morphology) Clinical significance Limitations for SDA

Aim To prepare Sabouraud Dextrose agar media for isolation of clinical fungus.

Introduction Sabouraud Dextrose Agar (SDA) is used for the isolation, cultivation, and maintenance of non-pathogenic and pathogenic species of fungi and yeasts . SDA was formulated by Sabouraud in 1892 for culturing dermatophytes. The pH is adjusted to approximately 5.6 in order to enhance the growth of fungi, especially dermatophytes , and to slightly inhibit bacterial growth in clinical specimens.

Principle The SDA media is comprised of enzymatic digest of casein (BHI) and animal tissues which provide a nutritious source of amino acids and nitrogenous compounds for the growth of fungi and yeasts. Dextrose is the fermentable carbohydrate incorporated in high concentration as a carbon and energy source. Agar is the solidifying agent. The addition of antibiotics like Chloramphenicol and/or tetracycline acts as broad-spectrum antimicrobials to inhibit the growth of a wide range of gram-positive and gram-negative bacteria. Cyclohexamide is added to further inhibit the growth of gram-negative bacteria.

According to textbook

Materials Required SDA agar Petri dishes / test tubes Autoclave Weighing machine Incubator Buffers HCL, NaOH to adjust pH to 5.6 Other PPEs

Composition of SDA

Procedure for Preparation of Sabouraud Agar Suspend 65 gm of the medium in one liter of purified water. Heat with frequent agitation and boil for one minute to completely dissolve the medium. Autoclave at 121° C for 15 minutes. Cool to 45 to 50°C and pour into Petri dishes or tubes for slants. For the processing of specimens, streak the specimen onto the medium with a sterile inoculating loop in order to obtain isolated colonies. Incubate the plates at 25 – 30°C in an inverted position (agar side up) with increased humidity. Cultures should be examined at least weekly for fungal growth and should be held for 4 – 6 weeks before being reported as negative.

Result and interpretation After sufficient incubation, SDA plates should show isolated colonies in streaked areas and confluent growth in areas of heavy inoculation. Examine plates for fungal colonies exhibiting typical color and morphology. Additional procedures should be performed to confirm findings. Yeasts will grow as creamy to white colonies. Molds will grow as filamentous colonies of various colors.

Results & interpretation Fungi Colony morphology 1 Aspergillus flavus Yellow-green, powdery and pale yellowish on reverse 2 Aspergillus niger The initial growth is white, becoming black later on giving “salt and pepper appearance” which results from darkly pigmented conidia borne in large numbers on conidiophores and reverse turning pale yellow 3 aspergillus fumigatus Blue – green, powdery and pale yellow on reverse . 4 Trichosporon mucoides White to cream, yellowish, wrinkled

Limitations of Sabouraud Agar It does not promote the conidiation of filamentous fungi. Antimicrobial agents added into a medium to inhibit bacteria may also inhibit certain pathogenic fungi. Avoid overheating a medium with an acidic pH; this may result in a soft medium.

Objective questions This set of Microbiology Multiple Choice Questions & Answers (MCQs) focuses on “Classification of Fungi”. In the fungal classification system Ascomycetes come under the division of ________________ a) Gymnomycota b) Mastigomycota c) Amastigomycota d) Gymnomycota , Mastigomycota 2. Rhizopus stolonifer belongs to which class? a) Acrasiomycetes b) Zygomycetes c) Ascomycetes d) Deuteromycetes

Objective questions 3. Which class of fungi among the following have motile cells with two laterally inserted flagella, one tinsel and the other whiplash? a) Chytridiomycetes b) Zygomycetes c) Deuteromycetes d) Oomycetes 4. Which division of fungi lacks flagella? a) Mastigomycota b) Amastigomycota c) Gymnomycota d) Basidiomycetes

Reference https://www.slideshare.net/VamsiIntellectual/introduction-to-hematology-173160503 Dr. NTR university of health sciences B.Sc. MLT syllabus

Youtube videos https://www.youtube.com/watch?v=6-hm3pdr8UA https://www.youtube.com/watch?v=HQWlcSp9Sls https://www.youtube.com/watch?v=XVWOlKdpF_I

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