Screening and characterization of amylase and cellulase activities in psychrotolerant yeasts

Artículo de publicación ISI Background: Amylases and cellulases have great potential for application in industries such as food, detergent, laundry, textile, baking and biofuels. A common requirement in these fields is to reduce the temperatures of the processes, leading to a continuous search for m...

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Bibliographic Details
Main Authors: Carrasco, Mario, Villarreal, Pablo, Barahona, Salvador, Alcaíno Gorman, Jennifer, Cifuentes Guzmán, Víctor, Baeza Cancino, Marcelo
Format: Article in Journal/Newspaper
Language:English
Published: BIOMED CENTRAL 2016
Subjects:
Amylase
Cellulase
Cold-active enzymes
Psychrotolerant yeasts
Antarctic
Isi
The Antarctic
Antarc*
Online Access:https://repositorio.uchile.cl/handle/2250/138920
Description
Summary:Artículo de publicación ISI Background: Amylases and cellulases have great potential for application in industries such as food, detergent, laundry, textile, baking and biofuels. A common requirement in these fields is to reduce the temperatures of the processes, leading to a continuous search for microorganisms that secrete cold-active amylases and cellulases. Psychrotolerant yeasts are good candidates because they inhabit cold-environments. In this work, we analyzed the ability of yeasts isolated from the Antarctic region to grow on starch or carboxymethylcellulose, and their potential extracellular amylases and cellulases. Result: All tested yeasts were able to grow with soluble starch or carboxymethylcellulose as the sole carbon source; however, not all of them produced ethanol by fermentation of these carbon sources. For the majority of the yeast species, the extracellular amylase or cellulase activity was higher when cultured in medium supplemented with glucose rather than with soluble starch or carboxymethylcellulose. Additionally, higher amylase activities were observed when tested at pH 5.4 and 6.2, and at 30-37 degrees C, except for Rhodotorula glacialis that showed elevated activity at 10-22 degrees C. In general, cellulase activity was high until pH 6.2 and between 22-37 degrees C, while the sample from Mrakia blollopis showed high activity at 4-22 degrees C. Peptide mass fingerprinting analysis of a potential amylase from Tetracladium sp. of about 70 kDa, showed several peptides with positive matches with glucoamylases from other fungi. Conclusions: Almost all yeast species showed extracellular amylase or cellulase activity, and an inducing effect by the respective substrate was observed in a minor number of yeasts. These enzymatic activities were higher at 30 degrees C in most yeast, with highest amylase and cellulase activity in Tetracladium sp. and M. gelida, respectively. However, Rh. glacialis and M. blollopis displayed high amylase or cellulase activity, respectively, under 22 degrees C. In ...

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