Abstract
Rhamnolipids are becoming an important class of glycolipid biosurfactants. Herein, we describe for the first time the enzymatic synthesis of rhamnose fatty acid esters by the transesterification of rhamnose with fatty acid vinyl esters, using lipase from Pseudomonas stutzeri as a biocatalyst. The use of this lipase allows excellent catalytic activity in the synthesis of 4-O-acylrhamnose (99% conversion and full regioselectivity) after 3 h of reaction using tetrahydrofuran (THF) as the reaction media and an excess of vinyl laurate as the acyl donor. The role of reaction conditions, such as temperature, the substrates molar ratio, organic reaction medium and acyl donor chain-length, was studied. Optimum conditions were found using 35 °C, a molar ratio of 1:3 (rhamnose:acyldonor), solvents with a low logP value, and fatty acids with chain lengths from C4 to C18 as acyl donors. In hydrophilic solvents such as THF and acetone, conversions of up to 99–92% were achieved after 3 h of reaction. In a more sustainable solvent such as 2-methyl-THF (2-MeTHF), high conversions were also obtained (86%). Short and medium chain acyl donors (C4–C10) allowed maximum conversions after 3 h, and long chain acyl donors (C12–C18) required longer reactions (5 h) to get 99% conversions. Furthermore, scaled up reactions are feasible without losing catalytic action and regioselectivity. In order to explain enzyme regioselectivity and its ability to accommodate ester chains of different lengths, homology modelling, docking studies and molecular dynamic simulations were performed to explain the behaviour observed.
Highlights
Lipases are among the most versatile biocatalysts; they find multiple applications at an industrial scale [1,2,3]
With the aim of preparing a novel sugar ester of interest, PSL was evaluated in the synthesis of lauroylrhamnose (1e, Scheme 1) through a transesterification process, employing L-rhamnose (2) and vinyl laurate (3e) as the acyl donor (Scheme 1)
As this lipase had previously shown an excellent behaviour in the resolution of secondary alcohols through transesterification reactions performed in THF [16], we first studied the PSL-catalysed synthesis of 1e in anhydrous THF at 35 ◦ C (Scheme 1) with a molar ratio of rhamnose: acyl donor of 1:5
Summary
Lipases are among the most versatile biocatalysts; they find multiple applications at an industrial scale [1,2,3]. Lipases have been widely used in the enzymatic synthesis of carbohydrate fatty acid esters [4,5,6,7,8], which constitute a very interesting group of non-ionic biosurfactants with important applications in the food industry [9]. Rhamnolipids (RLs) are one of the most studied biosurfactants due to its remarkable surface activity, emulsifying properties [22,23] and its numerous applications in cosmetics, detergents and bioremediation [24,25,26] They display antimicrobial, anticancer and immunomodulation properties which made them useful in pharmaceutical, food and health-care industries [27]. Molecular modelling studies were carried out to in order to explain the binding mode of rhamnose to PSL and the high yields obtained
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