Maria H.L. Ribeiro scite author profile

Naringinase, an enzyme complex, is commercially attractive due to its potential usefulness in pharmaceutical and food industries. It is of particular interest in the biotransformation of steroids, antibiotics, and mainly of glycosides hydrolysis. Moreover, it can be used in citrus juices debittering and wine industries. Naringinase expresses activity on α-L-rhamnosidase and β-D-glucosidase. Many natural glycosides, including naringin, rutin, quercitrin, hesperidin, diosgene, and ter-phenyl glycosides, containing terminal α-rhamnose and β-glucose can act as substrates of naringinase. The sources, production, activity, biochemical properties, and substrate specificity of naringinase are reviewed, along with a description of the enzymatic deglycosylation systems and applications, concluding with the identification of areas which need further extensive studies.

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Immobilization of Naringinase in PVA–Alginate Matrix Using an Innovative Technique

Nunes

Vila-Real

Fernandes

et al. 2009

Appl Biochem Biotechnol

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A synthetic polymer, polyvinyl alcohol (PVA), a cheap and nontoxic synthetic polymer to organism, has been ascribed for biocatalyst immobilization. In this work PVA-alginate beads were developed with thermal, mechanical, and chemical stability to high temperatures (<80 degrees C). The combination of alginate and bead treatment with sodium sulfate not only prevented agglomeration but produced beads of high gel strength and conferred enzyme protection from inactivation by boric acid. Naringinase from Penicillium decumbens was immobilized in PVA (10%)-alginate beads with three different sizes (1-3 mm), at three different alginate concentrations (0.2-1.0%), and these features were investigated in terms of swelling ratio within the beads, enzyme activity, and immobilization yield during hydrolysis of naringin. The pH and temperature optimum were 4.0 and 70 degrees C for the PVA-alginate-immobilized naringinase. The highest naringinase activity yield in PVA (10%)-alginate (1%) beads of 2 mm was 80%, at pH 4.0 and 70 degrees C. The Michaelis constant (K(Mapp)) and the maximum reaction velocity (V(maxapp)) were evaluated for both free (K(Mapp) = 0.233 mM; V(maxapp) = 0.13 mM min(-1)) and immobilized naringinase (K(Mapp) = 0.349 mM; V(maxapp) = 0.08 mM min(-1)). The residual activity of the immobilized enzyme was followed in eight consecutive batch runs with a retention activity of 70%. After 6 weeks, upon storage in acetate buffer pH 4 at 4 degrees C, the immobilized biocatalyst retained 90% of the initial activity. These promising results are illustrative of the potential of this immobilization strategy for the system evaluated and suggest that its application may be effectively performed for the entrapment of other biocatalysts.

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Naringin and naringenin determination and control in grapefruit juice by a validated HPLC method

Ribeiro

2008

Food Control

119

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Sleep/Wake Patterns of Individuals With Advanced Cancer Measured by Ambulatory Polysomnography

Parker

Bliwise

Ribeiro

et al. 2008

JCO

100

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Production of human milk fat substitutes enriched in omega-3 polyunsaturated fatty acids using immobilized commercial lipases and Candida parapsilosis lipase/acyltransferase

Tecelão

Silva

Dubreucq

et al. 2010

Journal of Molecular Catalysis B: Enzymatic

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Selective adsorption of limonin and naringin from orange juice to natural and synthetic adsorbents

Ribeiro

Silveira

Ferreira‐Dias³

2002

European Food Research and Technology

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Development of novel sophorolipids with improved cytotoxic activity toward MDA‐MB‐231 breast cancer cells

Ribeiro

Faustino

Guerreiro

et al. 2015

J of Molecular Recognition

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Sophorolipids (SLs) are glycolipid biosurfactants, produced as a mixture of several compounds by some nonpathogenic yeast. In the current study, separation of individual SLs from mixtures with further evaluation of their surface properties and biologic activity on MDA-MB-321 breast cancer cell line were investigated. SLs were biosynthesized by Starmerella bombicola in a culture media supplemented with borage oil. A reverse-phase flash chromatography method with an automated system coupled with a prepacked cartridge was used to separate and purify the main SLs. Compositional analysis of SLs was performed by high-performance liquid chromatography with electrospray ionization mass spectrometry and tandem mass spectrometry. The following diacetylated lactonic SLs were isolated and purified: C18:0, C18:1, C18:2, and C18:3. The critical micelle concentration (CMC) and surface tension at CMC (γCMC ) of the purified SLs showed an increase with the number of double bonds. High cytotoxic effect against MDA-MB-231 cells was observed with C18:0 and C18:1 lactonic SLs. The cytotoxic effects of C18:3 lactonic SL on cancerous cells were for the first time studied. This cytotoxic effect was considerably higher than the promoted by acidic SLs; however, it induced a lower effect than the previously mentioned SLs, C18:0 and C18:1. To our knowledge, for the first time, C18:1 lactonic SL, in selected concentrations, proved to be able to inhibit MDA-MB-231 cell migration without compromising cell viability and to increase intracellular reactive oxygen species.

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Maria H.L. Ribeiro

Response surface optimization of enzymatic hydrolysis of Cistus ladanifer and Cytisus striatus for bioethanol production

Naringinases: occurrence, characteristics, and applications

Immobilization of Naringinase in PVA–Alginate Matrix Using an Innovative Technique

Naringin and naringenin determination and control in grapefruit juice by a validated HPLC method

Sleep/Wake Patterns of Individuals With Advanced Cancer Measured by Ambulatory Polysomnography

Production of human milk fat substitutes enriched in omega-3 polyunsaturated fatty acids using immobilized commercial lipases and Candida parapsilosis lipase/acyltransferase

Selective adsorption of limonin and naringin from orange juice to natural and synthetic adsorbents

Development of novel sophorolipids with improved cytotoxic activity toward MDA‐MB‐231 breast cancer cells

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