Influence of different parameters on reverse micelle extraction combined with acetone precipitation to purify sn-1,3 extracellular lipase from Aspergillus niger GZUF36

Chen, Cuicui; Tian, Hua; Xing, Shuqi; Li, Cuiqin; Zeng, Xuefeng; He, Laping

doi:10.1007/s13197-019-03743-4

Cited by 15 publications

(4 citation statements)

References 37 publications

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“…The ion aids in the formation of stable reverse micelles by reducing the repulsion between the surfactant headgroups (Chen et al, 2019) at a specific ionic concentration in the aqueous phase and helps improve the forward extraction of the desired proteins. However, protein extraction capability is reduced beyond a critical concentration as the added ions bind to the surfactant headgroups and result in the formation of smaller size reverse micelles (Andrews et al, 1994; Andrews & Haywood, 1994).…”

Section: Resultsmentioning

confidence: 99%

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Lactoperoxidase partitioning from whey using the reverse micelles of non‐ionic/ionic mixed surfactants: Improvement of back extraction

Karanth

Iyyaswami

2022

Food Processing Preservation

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Biopreservatives are gaining the importance in the food industry as an alternative to the harmful chemical preservatives. Though few natural antimicrobials are available from microbial sources, their growth and the related upstream are additional steps for industry.Industries are constantly seeking cheap sources of biopreservatives.Of the many identified biopreservatives, Lactoperoxidase (LP -EC 1.11.1.7) is popular and proven to be effective. As a part of the natural defense system in mammals, it is a component of the secretory glands. LP is a calcium-containing glycoprotein with 8%-10% carbohydrate. The enzyme consists of 612 amino-acids and heme on a single polypeptide chain with an approximately 78 kDa molecular weight and an isoelectric point between 9.2 and 9.9 (Kussendrager & van Hooijdonk, 2000). The maximum optical absorbance of LP was 412 nm. The enzyme is highly heat-stable under pasteurization conditions and also relatively stable against proteolytic enzymes. Whey, the by-product of cheese manufacturing, is a cheap source of LP.Bovine LP alone is inactive against microbes; however, the reaction products catalyzed by LP are harmful to the infecting microbes yet are safe for humans. The antimicrobial property of Lactoperoxidase is increasingly explored in the food and pharma industry. Apart from its antimicrobial nature, LP also exhibits antioxidant and anticancer properties (Abu-Serie & El-Fakharan, 2017;Albera & Kankofer, 2009).Whey contains considerable amounts of LP along with other major proteins that include beta-lactoglobulin, alpha-lactalbumin, bovine serum albumin (BSA), Lactoferrin (Lf), and glycomacropeptide. The extraction and purification of LP are difficult as the other major and minor whey proteins hinder the purification process,

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Section: Resultsmentioning

confidence: 99%

Section: Effect Of Acid Whey Ionic Strengthmentioning

confidence: 99%

Lactoperoxidase partitioning from whey using the reverse micelles of non‐ionic/ionic mixed surfactants: Improvement of back extraction

Karanth

Iyyaswami

2022

Food Processing Preservation

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“…The polar head dissolves in water and dissolves the bioactive substances, such as enzymes, proteins, and nucleic acids. This prevents direct contact of active substances with organic solvents outside the micelles [33].…”

Section: Reverse Micellar Extraction (Rm)mentioning

confidence: 99%

Generalized Review on Extraction of Biomolecules

Shireen¹,

Zarena²

2022

J. Pharm. Nutr. Sci.

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Nature has given us a wide range of biological compounds that can be utilized to help combat health problems, but sometimes with over-processing, these advantages are diminished or lost. Food and pharmaceutical companies have developed a range of new approaches to harness and retain the naturally occurring diversity and quality of bioactive compounds efficiently and effectively. Pharmaceutically important plant products have been known for millennia; they have been used in crude and unrefined forms. One of the best ways to pick the best plant bioactive is through genetic engineering, omics, and plant tissue culture. Many laboratories routinely screen plant species for bioactive compounds to discover new ones. All extraction methods depend on the researcher's preference and what exactly the research entails. Successful extraction begins with the careful selection and preparation of plant samples and thorough knowledge and review of the appropriate literature. Here we have attempted to describe the different stages and methods of extraction from the medicinal plants. From the review, it can be concluded that no universal extraction method is ideal and that each extraction procedure is unique.

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“…The interior core holds an aqueous microphase, which has the capability to dissolve biomolecule‐like enzymes. Chen et al., [166] purified a sn‐1,3 lipase obtained from Aspergillus niger by the combination of acetone precipitation and reverse micellar technique. This lipase initially purified by adjusting the volume ratio (1:2.5) of crude lipase mixture and acetone.…”

Section: Techniques Of Lipase Purificationmentioning

confidence: 99%

Microbial lipase production: A deep insight into the recent advances of lipase production and purification techniques

Fatima

Faryad

Ataa

et al. 2020

Biotech and App Biochem

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Importance of enzymes is ever-rising particularly microbial lipases holding great industrial worth owing to their potential to catalyze a diverse array of chemical reactions in aqueous as well as nonaqueous settings. International lipase market is anticipated to cross USD 797.7 million till 2025, rising at a 6.2% compound annual growth rate from 2017 to 2025. The recent breakthrough in the field of lipase research is the generation of new and upgraded versions of lipases via molecular strategies. For example, integration of rational enzyme design and directed enzyme evolution to attain desired properties in lipases. Normally, purification of lipase with significant purity is achieved through a multistep procedure. Such multiple step approach of lipase purification entails both conventional and novel techniques. The present review attempts to provide an overview of different aspects of lipase production including fermentation techniques, factors affecting lipase production, and purification strategies, with the aim to assist researchers to pick a suitable technique for the production and purification of lipase.

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Influence of different parameters on reverse micelle extraction combined with acetone precipitation to purify sn-1,3 extracellular lipase from Aspergillus niger GZUF36

Cited by 15 publications

References 37 publications

Lactoperoxidase partitioning from whey using the reverse micelles of non‐ionic/ionic mixed surfactants: Improvement of back extraction

Lactoperoxidase partitioning from whey using the reverse micelles of non‐ionic/ionic mixed surfactants: Improvement of back extraction

Generalized Review on Extraction of Biomolecules

Microbial lipase production: A deep insight into the recent advances of lipase production and purification techniques

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