Microbial cellulases – Diversity &amp; biotechnology with reference to mangrove environment: A review

Behera, Bikash Chandra; Sethi, Benu; Mishra, Rinki; Dutta, Sushil Kumar; Thatoi, Hrudayanath

doi:10.1016/j.jgeb.2016.12.001

Cited by 213 publications

(101 citation statements)

References 114 publications

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“…Cellulases have wide applications and biotechnological potentials for various industries including chemical, fuel, food, brewery, animal feed, textile and pulp and paper industries (Bhat, 2000;Gilna and Khaleel, 2011;Karnouri et al, 2014;Ladeira et al, 2015). Some industrial processes for which cellulases find useful applications are clarification and liquefaction of fruit and vegetable juices, biopolishing of cotton and other cellulosic fabrics, improvement of nutritional and digestibility of animal feeds and ethanol fuel production (De Carvalho et al, 2008;Gaur and Tiwari, 2015;Behera et al, 2017). Enzyme production is closely controlled in microorganisms and therefore these controls can be carefully exploited to enhance enzyme productivity.…”

Section: Introductionmentioning

confidence: 99%

PRODUCTION AND PHYSICOCHEMICAL PROPERTIES OF THERMOSTABLE, CRUDE CELLULASE FROM ENTEROBACTER CLOACAE IP8 ISOLATED FROM PLANT LEAF LITTERS OF LAGERSTROEMIA INDICA Linn.

Akintola¹,

Oyedeji²,

Adewale³

et al. 2019

J microb biotech food sci

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Cellulases have wide applications and biotechnological potentials for various industries. A bacterium producing an extracellular, thermostable cellulase was isolated from plant leaf litters of Lagerstroemia indica Linn, inside a botanical garden. According to morphological, biochemical and physiological characterization, it was tentatively identified as Enterobacter sp. Molecular characterization, using the 16S rRNA gene sequencing was used to confirm the identity of the bacterium as Enterobacter cloacae IP8. Effects of some cultural factors such as carbon and nitrogen sources, pH and temperature, on cellulase production from the bacterium, were investigated. Some physicochemical properties of the crude cellulase from E. cloacae IP8 were determined to evaluate its potentials for industrial applications. The maximum yield of cellulase (10.78 U/mL) was at 28 h of incubation using carboxymethyl cellulose (CMC) (1.5%, w/v), peptone (2.0%, w/v), inoculum size (1.0%, v/v), pH and temperature of 7.0 and 45 oC, respectively, and agitation speed 150 rpm. The crude cellulase exhibited optimum activity at 60 oC, retaining 75.0% of its maximal activity at 70 oC. It had optimum pH of 7.0, retaining 58.0% of its original activity at acidic pH 5.0. Metal ions Na+, Ca2+ and Mg2+ remarkably enhanced activity of the cellulase while K+ and EDTA inhibited activity of the cellulase from E. cloacae IP8. The characteristics of the cellulase from E. cloacae IP8 revealed the enzyme as being thermostable and an acidic to neutral metalloenzyme. Therefore, the enzyme from this strain could be applied in industrial applications such as lignocellulosic biomass conversion into fuel and other value added products.

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Section: Introductionmentioning

confidence: 99%

PRODUCTION AND PHYSICOCHEMICAL PROPERTIES OF THERMOSTABLE, CRUDE CELLULASE FROM ENTEROBACTER CLOACAE IP8 ISOLATED FROM PLANT LEAF LITTERS OF LAGERSTROEMIA INDICA Linn.

Akintola¹,

Oyedeji²,

Adewale³

et al. 2019

J microb biotech food sci

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“…The presence of this enzyme could be related to the regulatory mechanisms of the production of cellulases, which are finely controlled by activation and repression, hence cellulases are known as inducible enzymes. Only in the presence of the substrate these enzymes are induced and repressed when easily utilizable sugars are available (Behera, Sethi, Mishra, Dutta, & Thatoi, 2017). Evidence of inactivation of adsorbed CBH I was presented in recent studies using atomic force microscopy by Igarashi et al (2009;.…”

Section: Discussionmentioning

confidence: 99%

Optimization of cellobiohydrolase production and secretome analysis of Trametes villosa LBM 033 suitable for lignocellulosic bioconversion

Coniglio

Fonseca

Díaz

et al. 2019

Arab Journal of Basic and Applied Sciences

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The production of bioethanol from lignocellulosic biomass comprises the enzymatic hydrolysis of lignocellulosic structures by three major cellulases. Among them, cellobiohydrolases are considered to be key enzymes playing a significant role on cellulose degradation. The ability to produce lignocellulolytic enzymes by fungi such as Trametes villosa makes them appropriate degraders for large-scale applications. In this context, the aim of this study was to obtain and characterize a cellobiohydrolase-enriched extracellular extract of T. villosa LBM 033 (Misiones, Argentina), which is suitable for the enzymatic hydrolysis of lignocellulosic residues. The effect of carbon and nitrogen sources on cellobiohydrolase activity was evaluated using experimental designs and a culture medium was optimized to obtain a cellobiohydrolase-enriched extract suitable for the hydrolysis of lignocellulosic biomass. Moreover, by secretome analysis, nine enzymes involved in lignocellulosic biomass degradation were identified under the optimized conditions; among them is a cellobiohydrolase II from the glycosil-hydrolase 6 family. ARTICLE HISTORY

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“…Augalų likučiai (nukritę lapai, smulkios durpės, šiaudai) turi daug celiuliozės, tai pagerina dirvožemio struktūrą. Mikroorga nizmai pagreitina celiuliozės irimą, o gebėjimas celiuliozę panaudoti kaip energijos ir anglies šal tinį yra vienas iš svarbiausių medžiagų srauto bi osferoje procesų (Behera et al, 2017).…”

Section: įVadasunclassified

The study of bacteria cellulases isolated from the soil and possibilities of using different media for the formation of cellulases

Gaide¹,

Čižeikienė²

2019

zemesukiomokslai

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Enzymes cellulases are important because of their ability to decompose cellulose, which is a part of lignocellulosic biomass. It is possible to produce bioproducts and biofuels that are environmentally friendly using these enzymes. It is relevant to investigate cellulases produced by bacteria, which are found in air or soil. The aim of this work is to investigate the activity of cellulases produced by bacteria isolated from the soil and to determine the influence of fermentation conditions and different nutrient media on the growth of bacteria and the activity of cellulases produced by them. In the present work, we investigated bacteria, which were isolated from natural environmental sources. 43 bacteria isolates were isolated from the soil. It was found that six isolates showed cellulolytic activity. In addition, five different Bacillus sp. bacteria, which were isolated from the environment earlier, were tested. The highest cellulolytic activity was produced by B. subtilis 88. The influence of cultivation time, temperature and medium was studied. The highest cellulases activities were obtained in Nutrient broth with glucose (5 g l–1) at 30°C after 24 h of fermentation. In addition, molasses is a by-product of the sugar industry, which can be applied to cultivate bacteria belonging to Bacillus genus and produce bioproducts. In this work, cellulases activities of B. subtilis 88 after cultivation in the molasses medium were obtained similar or even higher compared with those of MRS and Nutrient broths.

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Microbial cellulases – Diversity & biotechnology with reference to mangrove environment: A review

Cited by 213 publications

References 114 publications

PRODUCTION AND PHYSICOCHEMICAL PROPERTIES OF THERMOSTABLE, CRUDE CELLULASE FROM ENTEROBACTER CLOACAE IP8 ISOLATED FROM PLANT LEAF LITTERS OF LAGERSTROEMIA INDICA Linn.

PRODUCTION AND PHYSICOCHEMICAL PROPERTIES OF THERMOSTABLE, CRUDE CELLULASE FROM ENTEROBACTER CLOACAE IP8 ISOLATED FROM PLANT LEAF LITTERS OF LAGERSTROEMIA INDICA Linn.

Optimization of cellobiohydrolase production and secretome analysis of Trametes villosa LBM 033 suitable for lignocellulosic bioconversion

The study of bacteria cellulases isolated from the soil and possibilities of using different media for the formation of cellulases

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