Please use this identifier to cite or link to this item: http://localhost:80/xmlui/handle/123456789/16459
Title: Industrially relevant cellulase production by indigenous thermophilic Bacillus licheniformis TLW-3 strain: Isolation-molecular identification and enzyme yield optimization
Authors: Tabbassum Kiran
Wajeeha Asad
Munazza Ajaz
Muhammad Hanif
Shiekh Ajaz Rasool
Keywords: Hot oven ash
Bacillus TLW-3 strain
hermophilic CMCase
optimization
catabolite repression
DNS assay
Issue Date: 3-Nov-2018
Publisher: Karachi: Faculty of Pharmacy & Pharmaceutical Sciences University of Karachi
Citation: Kiran, T., Asad, W., Ajaz, M., Hanif, M., & Rasool, S. A. (2018). Industrially relevant cellulase production by indigenous thermophilic Bacillus licheniformis TLW-3 strain: Isolation-molecular identification and enzyme yield optimization. Pakistan Journal of Pharmaceutical Sciences, 31(6).
Abstract: Cellulases are the third largest single industrial bio-robots. These enzymes are employed in industries like pharmaceutical, textile, food processing, paper recycling and detergent manufacturing. In order to produce broadly diversified cellulases, microbes (both bacteria and fungi) have been exploited. Different ecological niches have already been explored for the isolation of cellulolytic microbes. However, there have been no remarkable reports viz a viz to the hot oven ash (for cellulolytic bacterial flora). In this regard, a Bacillus strainTLW-3 was isolated and selected for CMCase production and optimization. The strain was identified as B. licheniformis TLW-3 through 16S rDNA sequencing that was submitted to Gen Bank with accession numberKY440432. The isolate growth and CMCase production conditions were optimized to get the maximum CMCase yield. The highest growth and maximum CMCase production by B. licheniformis TLW-3 were recorded at pH 7 and 50ºC, after the incubation period of 72 (hour) at 150rpm. Studies on the various nitrogen and carbon sources on CMCase production showed that the medium having 1% peptone, 0.5% yeast extract and 1% CMC can significantly enhance the enzymatic yield as compared to other (studied) sources. EDTA, Tween-20 and Tween-80 acted as inhibitors for the enzyme production. The present study holds the conviction that the (reported) organism could directly be applied to produce industrial thermophilic CMCase.
URI: http://142.54.178.187:9060/xmlui/handle/123456789/16459
ISSN: 1011-601X
Appears in Collections:Issue 06

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