Journal of Clinical and Diagnostic Research, ISSN - 0973 - 709X

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Original article / research
Table of Contents - Year : 2017 | Month : April | Volume : 11 | Issue : 4 | Page : DC01 - DC03

Auxanographic Carbohydrate Assimilation Method for Large Scale Yeast Identification DC01-DC03

Suganthi Martena Devadas, Mamatha Ballal, Peralam Yegneswaran Prakash, Manjunath H Hande, Geetha V Bhat, Vinitha Mohandas

Dr. Mamatha Ballal,
Professor, Department of Microbiology, Enteric Diseases Division Incharge, Central Research Lab,
Kasturba Medical College - Manipal, Manipal University, Madhav Nagar, Manipal-576104, Karnataka, India.

Introduction: The auxanographic carbohydrate assimilation had been an important method for differentiation of yeasts. Prevailing methods described in the literature for carbohydrate assimilation has limited scope for use in large scale yeast identification.

Aim: To optimize the large scale auxanographic carbohydrate assimilation method for yeast identification.

Materials and Methods: A modified auxanographic carbohydrate assimilation method was developed and a total of 35 isolates of Candida species comprising of four ATCC (American Type Culture Collection) Candida strains (Candida albicans ATCC 90028, Candida tropicalis ATCC 90018, Candida parapsilosis ATCC 750, Candida krusei ATCC 6258) and 31 clinical isolates of Candida tropicalis (n=13), Candida krusei (n=7), Candida glabrata (n=3), Candida kefyr (n=3), Candida albicans (n=5) were validated. The carbohydrates tested were Glucose, Sucrose, Maltose, Lactose, Cellubiose, Raffinose, Trehalose, Xylose, Galactose and Dulcitol.

Results: A total of 35 Candida species were tested for their carbohydrate assimilative property and the results were consistent with the existing standard protocols. A well circumscribed opaque yeast growth indicated assimilation of the test carbohydrate and translucent to opalescent growth with the outline of initial inoculum alone indicated lack of assimilation. The control plate indicated no growth of the Candida species.

Conclusion: The carbohydrate assimilation tests finds utility for yeast diversity studies exploring novel ecological niches. The technique described here facilitates testing of an extended range of carbohydrates and yeasts in a cost effective manner.