A thermostable organic solvent-tolerant lipase from Brevibacillus sp.: production and integrated downstream processing using an alcohol-salt-based aqueous two-phase system

Leykun, Senaite; Johansson, Eva; Vetukuri, Ramesh Raju; Ceresino, Elaine Berger; Gessesse, Amare

doi:10.3389/fmicb.2023.1270270

Front. Microbiol.

2023

DOI: 10.3389/fmicb.2023.1270270

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A thermostable organic solvent-tolerant lipase from Brevibacillus sp.: production and integrated downstream processing using an alcohol-salt-based aqueous two-phase system

Senaite Leykun,

Eva Johansson,

Ramesh Raju Vetukuri

et al.

Abstract: Lipases are used for the synthesis of different compounds in the chemical, pharmaceutical, and food industries. Most of the reactions are carried out in non-aqueous media and often at elevated temperature, requiring the use of organic solvent-tolerant thermostable lipases. However, most known lipases are not stable in the presence of organic solvents and at elevated temperature. In this study, an organic solvent-tolerant thermostable lipase was obtained from Brevibacillus sp. SHI-160, a moderate thermophile is… Show more

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2024

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Cited by 2 publications

References 74 publications

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Utilization of shea-nut cake for lipase production by thermophilic Bacillus velezensis EAC 9 isolated from hot compost and optimization of nutritional parameters

Kazeem,

Adegbemi,

Aısamı

et al. 2024

Trakya University Journal of Natural Sciences

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The use of oily waste as a cost-effective substrate for lipase production is gaining more importance. However, shea-nut cake (SNC) remains under-explored in this regard. Lipases of thermophilic origin such as hot compost bacteria, are of significant biotechnological and industrial importance due to favorable robust properties. This paper describes the isolation of potential lipase producing thermophilic bacteria from hot compost and improvement of its lipase through optimization of nutritional parameters. The bacteria were isolated on tributyrin agar plate and applied for the production of lipase on Olive oil, Shea-nut cake (SNC) and the mixture of olive oil and SNC. Using Plackett-Burman Design (PBD) for screening and Central Composite Design (CCD) of Response Surface Methodology (RSM) for optimization studies, factors influencing lipase production on SNC substrate were identified. One (EAC 9) out of the 4 most potent isolates was identified as Bacillus velezensis EAC9 using 16S rRNA, and produced the highest lipase activity on mixture of olive oil and SNC (103.66 U/ml) than olive oil (65.22) and SNC (41.72 U/ml) alone. Optimization model validity was verified and revealed an optimum medium containing olive oil and Tween 80 at 1.0 % v/v, sucrose of 1.0 % w/v and (NH4)2SO4 of 0.1 % w/v led to maximum lipase production at 200 U/ml which was 4.79-fold increase from the unoptimized. The results indicate that SNC is a better prospective substrate for improving lipase production by thermophilic Bacillus valezensis EAC9, and that statistical methods may be used to deduce optimal parameters for effective lipase production.

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Utilization of shea-nut cake for lipase production by thermophilic Bacillus velezensis EAC 9 isolated from hot compost and optimization of nutritional parameters

Kazeem,

Adegbemi,

Aısamı

et al. 2024

Trakya University Journal of Natural Sciences

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Recent Progress in Non-Aqueous Biocatalysis of Immobilized Enzymes

Ma,

Wang,

Chu

et al. 2024

Processes

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Non-aqueous biocatalysis has attracted broad interest recently due to its differences from traditional aqueous catalysis and increased substrate solubility, which reduces feedback inhibition, improving enantiomer selectivity and completing synthesis reactions that cannot be performed in an aqueous solution. This approach shows remarkable application value in producing natural products, chemical products, pharmaceutical intermediates, and foods. This study aims to provide a concise overview of the current state of non-aqueous biocatalysis and its sustainability, summarizing the mechanism of non-aqueous biocatalysis and recent progress using immobilization technology. It includes different non-aqueous systems, such as organic phase systems, two-phase systems, ionic liquid systems, deep eutectic solvent systems, and non-solvent systems. Finally, this manuscript illustrates the challenges of non-aqueous catalysis and the prospects of the future areas of non-aqueous catalysis research.

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A thermostable organic solvent-tolerant lipase from Brevibacillus sp.: production and integrated downstream processing using an alcohol-salt-based aqueous two-phase system

Cited by 2 publications

References 74 publications

Utilization of shea-nut cake for lipase production by thermophilic Bacillus velezensis EAC 9 isolated from hot compost and optimization of nutritional parameters

Utilization of shea-nut cake for lipase production by thermophilic Bacillus velezensis EAC 9 isolated from hot compost and optimization of nutritional parameters

Recent Progress in Non-Aqueous Biocatalysis of Immobilized Enzymes

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