Abstract:
Cellulolytic organisms could be isolated from diverse natural sources and the best
bacterial candidate could be used to produce cellulase. The objective of the study was
to isolate a thermostable alkaline cellulase producing bacterial strain from diverse
natural sources. The samples obtained from multiple sources such as goat excreta, cow
dung, tropical soil, and organic matters. Opened hot cellulose agar plate were
transferred on to the selective CMC agar media and incubated for 2 days at 37 °C. The
samples were cultured on Nutrient Agar in order to isolate cellulolytic bacteria. Bacteria
isolated were screened for cellulolytic activity using serial dilution and pour-plate
method after which they were characterized. The bacterial isolate showing highest
carboxymethylcellulose (CMC) hydrolytic capacity was obtained from cow dung and
used for further studies. Based on the morphological, biochemical and cultural analysis,
the strain from cow dung was confirmed as Bacillus sp. Pure culture of this bacterial
strain was grown overnight for DNA extraction and 16S rDNA was amplified by a
Thermocycler using universal primers. When the amplified 16S rDNA PCR product was
sequenced using automated sequencer and sequence similarity search was done for the
16S rDNA sequence using BLAST. BLAST in search resulted unknown organism and
confirmed as Bacillus cereus in comparison with the GeneBank accession no AF290555.
This thermostable alkaline cellulase producer was the best strain and further studies are
underway to improve the strain and to optimize the fermentation medium and culture
conditions to increase the cellulase production.
