Enzymatic synthesis of amphiphilic carbohydrate esters: Influence of physicochemical and biochemical parameters

Enzymatic synthesis of amphiphilic carbohydrate esters: Influence of physicochemical and biochemical parameters

Glycolipids, carbohydrate fatty esters or sugar esters are amphiphilic molecules containing hydrophilic groups bonded to hydrophobic parent structures. Recently, glycolipids have shown their antimicrobial and antitumor capacities. Their surface activity properties have applications in the food, phar...

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Main Authors: Erika Zago, Nicolas Joly, Ludovic Chaveriat, Vincent Lequart, Patrick Martin
Format: Article
Language:English
Published: Elsevier 2021-06-01
Series:Biotechnology Reports
Subjects:
Sugar esters
Glycolipids
Biosurfactants
Enzymes
Biocatalysis
Online Access:http://www.sciencedirect.com/science/article/pii/S2215017X21000473
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spelling doaj-abe8055e256048a8a267065bdb46e57f2021-07-11T04:27:58ZengElsevierBiotechnology Reports2215-017X2021-06-0130e00631Enzymatic synthesis of amphiphilic carbohydrate esters: Influence of physicochemical and biochemical parametersErika Zago0Nicolas Joly1Ludovic Chaveriat2Vincent Lequart3Patrick Martin4Unité Transformations & Agroressources, Univ Artois—UniLasalle, ULR7519, F-62408 Bethune, FranceUnité Transformations & Agroressources, Univ Artois—UniLasalle, ULR7519, F-62408 Bethune, FranceUnité Transformations & Agroressources, Univ Artois—UniLasalle, ULR7519, F-62408 Bethune, FranceUnité Transformations & Agroressources, Univ Artois—UniLasalle, ULR7519, F-62408 Bethune, FranceCorresponding author at: Unité Transformations & Agroressources, Univ Artois—UniLasalle, ULR7519, 1230 rue de l’Université, CS20819, F-62408 Béthune, Cedex, France.; Unité Transformations & Agroressources, Univ Artois—UniLasalle, ULR7519, F-62408 Bethune, FranceGlycolipids, carbohydrate fatty esters or sugar esters are amphiphilic molecules containing hydrophilic groups bonded to hydrophobic parent structures. Recently, glycolipids have shown their antimicrobial and antitumor capacities. Their surface activity properties have applications in the food, pharmaceutical and cosmetic industries. Sugar esters’ building blocks can be obtained from natural resources and/or be transformed by biochemical pathways for uses as surfactants. Biosurfactants are non-ionic, nontoxic, biodegradable, tasteless, and odourless. The biocatalysis of these molecules involves sustainable, green, and safer methods. The advantages of producing biosurfactants from enzymatic catalysis are the energy economy, high selectivity, production of natural products, reduction of the use of fossil-based solvents and chloride compounds. This review presents the most recent studies concerning the evaluation of the impact of the main parameters and their levels influencing the enzymatic synthesis of glycolipids. Various enzyme catalysed synthetic methods were described. The parameters studied were temperature, reaction time, solvent system, type of biocatalyst, substrates molar ratio proportion and the nature of substrates. This review discusses the influence of different biocatalysts in the conversions of glycolipids; The reactivity from mono to polysaccharides and their interaction with fatty acids of different carbon chain lengths in the presence of specific enzymes; The effect of the solvent polarity, the use of multiple solvents, ionic liquids, supercritical CO2, and solvent-free media in sugar ester conversions; And the optimization of temperature and reaction time in different enzymatic systems.http://www.sciencedirect.com/science/article/pii/S2215017X21000473Sugar estersGlycolipidsBiosurfactantsEnzymesBiocatalysis
collection DOAJ
language English
format Article
sources DOAJ
author Erika Zago
Nicolas Joly
Ludovic Chaveriat
Vincent Lequart
Patrick Martin
spellingShingle Erika Zago
Nicolas Joly
Ludovic Chaveriat
Vincent Lequart
Patrick Martin
Enzymatic synthesis of amphiphilic carbohydrate esters: Influence of physicochemical and biochemical parameters
Biotechnology Reports
Sugar esters
Glycolipids
Biosurfactants
Enzymes
Biocatalysis
author_facet Erika Zago
Nicolas Joly
Ludovic Chaveriat
Vincent Lequart
Patrick Martin
author_sort Erika Zago
title Enzymatic synthesis of amphiphilic carbohydrate esters: Influence of physicochemical and biochemical parameters
title_short Enzymatic synthesis of amphiphilic carbohydrate esters: Influence of physicochemical and biochemical parameters
title_full Enzymatic synthesis of amphiphilic carbohydrate esters: Influence of physicochemical and biochemical parameters
title_fullStr Enzymatic synthesis of amphiphilic carbohydrate esters: Influence of physicochemical and biochemical parameters
title_full_unstemmed Enzymatic synthesis of amphiphilic carbohydrate esters: Influence of physicochemical and biochemical parameters
title_sort enzymatic synthesis of amphiphilic carbohydrate esters: influence of physicochemical and biochemical parameters
publisher Elsevier
series Biotechnology Reports
issn 2215-017X
publishDate 2021-06-01
description Glycolipids, carbohydrate fatty esters or sugar esters are amphiphilic molecules containing hydrophilic groups bonded to hydrophobic parent structures. Recently, glycolipids have shown their antimicrobial and antitumor capacities. Their surface activity properties have applications in the food, pharmaceutical and cosmetic industries. Sugar esters’ building blocks can be obtained from natural resources and/or be transformed by biochemical pathways for uses as surfactants. Biosurfactants are non-ionic, nontoxic, biodegradable, tasteless, and odourless. The biocatalysis of these molecules involves sustainable, green, and safer methods. The advantages of producing biosurfactants from enzymatic catalysis are the energy economy, high selectivity, production of natural products, reduction of the use of fossil-based solvents and chloride compounds. This review presents the most recent studies concerning the evaluation of the impact of the main parameters and their levels influencing the enzymatic synthesis of glycolipids. Various enzyme catalysed synthetic methods were described. The parameters studied were temperature, reaction time, solvent system, type of biocatalyst, substrates molar ratio proportion and the nature of substrates. This review discusses the influence of different biocatalysts in the conversions of glycolipids; The reactivity from mono to polysaccharides and their interaction with fatty acids of different carbon chain lengths in the presence of specific enzymes; The effect of the solvent polarity, the use of multiple solvents, ionic liquids, supercritical CO2, and solvent-free media in sugar ester conversions; And the optimization of temperature and reaction time in different enzymatic systems.
topic Sugar esters
Glycolipids
Biosurfactants
Enzymes
Biocatalysis
url http://www.sciencedirect.com/science/article/pii/S2215017X21000473
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AT nicolasjoly enzymaticsynthesisofamphiphiliccarbohydrateestersinfluenceofphysicochemicalandbiochemicalparameters
AT ludovicchaveriat enzymaticsynthesisofamphiphiliccarbohydrateestersinfluenceofphysicochemicalandbiochemicalparameters
AT vincentlequart enzymaticsynthesisofamphiphiliccarbohydrateestersinfluenceofphysicochemicalandbiochemicalparameters
AT patrickmartin enzymaticsynthesisofamphiphiliccarbohydrateestersinfluenceofphysicochemicalandbiochemicalparameters
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