Abstract
In optimization of cellulase production by different pH, substrates, nitrogen, carbon sources were detected from penicillium citrinum micro-fungal species. The maximum cellulase activity was recorded in the range of pH- 5 to 6.5 and wheat bran (91 U/ml) and rice bran (81 U/ml) is the best raw substrate for the production of cellulase. Estimation of extracellular protein was recorded in different production medium of Penicillium citrinum (1.63 mg/ml) for maltose followed by sucrose (1.46 mg/ml), fructose (1.13 mg/ml), wheat bran (1.12 mg/ml), peptone (0.88 mg/ml) and yeast extract (0.82 mg/ml). The highest extracellular protein was recorded in pH 5.5 to 6.5 followed by substrate for wheat bran (1.12 mg/ml), rice bran (1.04 mg/ml), paddy straw (1.03 mg/ml). In nitrogen sources, ammonium sulphate (141 U/ml) and ammonium nitrate (121 U/ml) is the best nitrogen source for the production of cellulase enzyme. The maximum cellulase activity was recorded in glucose (134 U/ml) and maltose (159 U/ml) was best carbon source for the production of cellulase.
Highlights
Microorganisms play an important role in natural biodegradation processes in which plant lignocellulosic materials are efficiently degraded by cellulolytic fungi
The micro-fungal species Fusarium oxysporum, Curvularia lunata, Alternaria alternate, Aspergillus niger, Cladosporium cladosporioides, Penicillium citrinum, Aspergillus nidulans were recorded in Potato dextrose Agar medium but screening of cellulase production in carboxymethyl cellulose plate assay medium in highest zone of clearance, were recorded in after floated with Congo red solution in 4th day of micro-fungal culture plate of Penicillium citrinum
The broth contained 1.0% of each nitrogen sources, 1% carboxy methyl cellulose (CMC) and was autoclaved to add basal mineral salt medium
Summary
Microorganisms play an important role in natural biodegradation processes in which plant lignocellulosic materials are efficiently degraded by cellulolytic fungi. Fungi play an important role in bioconversion and composting of organic waste and can be an important contributor to optimal agricultural and forest waste bioconversion [1]. Fungi are of great interest for enzyme production because they excrete their enzymes extracellularly [2]. Selection of the right organism plays a key role in high yield of desirable enzymes [4]. Fungi are microorganisms which are well known for their wide range of novelty of enzymes they produce and enzymes of fungal origin are used in the industrial process for which, amount to billions of dollars of revenue annually [5]
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