Cost‐effective cellulase production, improvement strategies, and future challenges

Bhati, Nikita; Shreya, -; Sharma, Arun Kumar

doi:10.1111/jfpe.13623

Cited by 37 publications

(21 citation statements)

References 74 publications

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“…They are also some of the most effective proteolytic and carbohydrate sources. They meet the enzyme needs in many areas such as the production of starch, bread, fruit juice, paper bleaching and brewing (Bhati and Sharma 2021 ; Kurt and Cekmecelioglu 2021 ; Singh et al 2021 ). For this reason, many enzymes synthesized by Bacillus species are used in many areas in the industry (Oztas Gulmus and Gormez 2020b ).…”

Section: Discussionmentioning

confidence: 99%

Identification, characterization and hydrolase producing performance of thermophilic bacteria: geothermal hot springs in the Eastern and Southeastern Anatolia Regions of Turkey

Uluçay

Görmez

Öziç

2022

Antonie van Leeuwenhoek

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In the last two decades, researchers have increasingly focused on the rich microorganism-based diversity of natural hot spring sources to explore the benefits of thermophiles in industrial and biotechnological fields. Within the scope of this study, a total of 83 thermophilic Bacilli strains were isolated from 7 different geothermal hot springs (at temperatures ranging between 40 and 85 °C) located in the Eastern and Southeastern Anatolia Regions of Turkey. The physiological, morphological, biochemical and molecular properties of the isolates were determined. As a result of the 16S rRNA gene sequence analysis, 5 different species ( Bacillus licheniformis , Bacillus sp . , Bacillus subtilis , Geobacillus kaustophilus, and Weizmannia coagulans ,) were identified. B. licheniformis and B. subtilis were the most frequently encountered species among those obtained from the researched hot spring sources. Phylogenetic analysis was conducted to evaluate the phylogenetic relationships of the isolated species. The results showed that there was no significant difference between the groups and the bacteria in terms of the locations or optimum temperatures of the isolates. The bacterial isolates were screened for amylase, cellulase, lipase and protease hydrolytic enzyme activities. The hydrolytic enzyme production potentials among the isolates were identified in 68 (82%) isolates for amylase, 34 (41%) for cellulase, 69 (83%) for lipase and 73 (88%) for protease. All isolates were found to have at least one or more extracellular enzyme activities. Additionally, it was determined that 27 of the existing isolates (32.8%) were able to produce all of the aforementioned hydrolytic enzymes. Supplementary Information The online version contains supplementary material available at 10.1007/s10482-021-01678-5.

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Section: Discussionmentioning

confidence: 99%

Identification, characterization and hydrolase producing performance of thermophilic bacteria: geothermal hot springs in the Eastern and Southeastern Anatolia Regions of Turkey

Uluçay

Görmez

Öziç

2022

Antonie van Leeuwenhoek

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“…Biological enzymes have become important products of biotechnology due to their mild reaction, high catalytic reaction efficiency, and strong specificity. Among them, cellulase is a kind of complex catalytic enzyme, including endoglucanase, exoglucanase, and β-glucosidase, which hydrolyzes cellulose into glucose units [85]. Jin et al discussed the promotion of water-soluble lignin on cellulase hydrolysis [86].…”

Section: Introductionmentioning

confidence: 99%

Effects of different amounts of cellulase on the microstructure and soluble substances of cotton stalk bark

Xie

Tian

Liu

et al. 2022

Adv Compos Hybrid Mater

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There are plant cuticle and complex cell walls on the outer surface of cotton stalk bark (CSB), which reduce the efficiency of liquid penetration of CSB. To increase the permeability of liquids, these barriers need to be broken. Cellulase can selectively hydrolyze cellulose into glucose, and its action conditions are mild. Therefore, cellulase treatment is one of the excellent ways to break the CSB liquid permeation barrier. This experiment studied the effects of different amounts of cellulase treatment on the enzymatic hydrolysis products and surface of CSB. Scanning electron microscopy (SEM) and nano-CT were used to observe the changes in the microscopic morphology of CSB. Ion chromatography and an ultraviolet–visible spectrophotometer were used to determine the dissolution of CSB. The results showed that the cuticle of CSB treated with cellulase was broken, and the cell wall of phloem fibers became thinner, which increased the accessibility of liquid. The content of monosaccharide and lignin in CSB treatment solution increased with the increase of cellulase dosage. Correspondingly, the proportion of polysaccharides on the outer surface of CSB continued to decline and eventually stabilized. These experimental results can provide a reference for improving the permeability of natural fibers and the subsequent treatment effects of biomass products. Graphical abstract The pretreatment of cotton stalk barks with cellulase destroyed the dense protective structure of cell wall, and the content of monosaccharide and lignin in the treated solution increased with the increase of cellulase dosage.

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“…Cellulose represents about 1.5 × 10 12 tons of biomass produced by photosynthesis and is most inexhaustible raw material source for different products [1]. Cellulose is the most dominating agricultural waste and is considered as abundant and renewable biopolymer present on planet earth [2].…”

Section: Introductionmentioning

confidence: 99%

“…A most prospective use of cellulase is the conversion of cellulosic or lignocellulosic raw materials to other fermentable sugars and glucose, which acts as a microbial carbon source for different bioproduct production like single cell proteins and ethanol [31,32]. Commercial production of enzyme cellulases can be achieved by either solid [3] or submerged fermentation process [1] culture including batch, fed batch, and continuous fermentation processes [3].Various statistical tools or methods are used in order to optimize production of cellulase or biomolecules by using fermentation process [33,34,35].…”

Section: Introductionmentioning

confidence: 99%

Bioprocessing of Agricultural Waste (Banana Pseudostem) by Solid-State Fermentation (SSF) for Production of Cellulase

Achappa

Shet

Hombalimath

et al. 2022

JPRI

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Cellulase was produced by Cellulomonas uda utilizing banana stem waste by solid state fermentation (SSF). The different parameters effects considered like particle size of substrate, pH(incubation and extraction), incubation period, temperature (incubation and extraction), media components (yeast extract and peptone) and moisture of substrate on the production of cellulase was investigated. The optimum activity of cellulase produced by Cellulomonas uda on banana waste for particle size (6.97 IU/min for 1mm), extraction pH (7.13 IU/min for pH 7), incubation pH(6.97 IU/min for pH 7), extraction temperature (7.10 IU/min for 500C), incubation temperature (7.20 IU/min for 450C), incubation period (7.20 IU/min on 3rd day), moisture content (7.12 IU/min for 100% ), peptone content ( 7.23 IU/min for 0.5 gm) and yeast extract content (7.18 IU/min for 0.30gm) was recorded. The cellulase produced by Cellulomonas uda by using banana stem waste indicates the socio-econic utilization of agricultural waste. After purification and characterization; cellulase enzyme can be used in industrial processes.

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Cost‐effective cellulase production, improvement strategies, and future challenges

Cited by 37 publications

References 74 publications

Identification, characterization and hydrolase producing performance of thermophilic bacteria: geothermal hot springs in the Eastern and Southeastern Anatolia Regions of Turkey

Identification, characterization and hydrolase producing performance of thermophilic bacteria: geothermal hot springs in the Eastern and Southeastern Anatolia Regions of Turkey

Effects of different amounts of cellulase on the microstructure and soluble substances of cotton stalk bark

Bioprocessing of Agricultural Waste (Banana Pseudostem) by Solid-State Fermentation (SSF) for Production of Cellulase

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