Enzymatic synthesis of short‐chain esters in <i>n</i>‐hexane and supercritical carbon dioxide: Effect of the acid chain length

Diaz, M. Dolores; Gómez, J. M. G.; Díaz-Suelto, Beatriz; García-Sanz, Alicia

doi:10.1002/elsc.200900097

Cited by 22 publications

(6 citation statements)

References 22 publications

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“…Esterication reactions are usually performed in low water activity medium, and organic solvents, ionic liquids, or supercritical uids are used for this purpose. 10,26,27 In the case of organic solvents, it is convenient to use the one producing the lowest deleterious effects on enzyme activity and stability. In this work, four different organic solvents were evaluated for the esterication reactions catalyzed by Lipozyme RM-IM under ultrasound energy.…”

Section: Effects Of Organic Solvents On the Enzyme Performancementioning

confidence: 99%

Ultrasound technology and molecular sieves improve the thermodynamically controlled esterification of butyric acid mediated by immobilized lipase from Rhizomucor miehei

et al. 2014

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In this research, the effects of ultrasound stirring and the addition of molecular sieves on esterification reactions between butyric acid and several alcohols catalyzed by immobilized lipase from Rhizomucor miehei (Lipozyme RM-IM) were studied. Among the tested alcohols, 1-propanol and isobutanol allowed the highest activities, whereas Lipozyme RM-IM showed poor activities for esterification using secondary and tertiary alcohols. Different solvents were also tested and n-hexane was selected because of its reaction effects, besides being cheaper, available at low boiling point, and ease of recovery. Using the preselected alcohol and solvent, other reaction parameters (butyric acid concentration, temperature, substrate molar rate, and biocatalyst content) were studied to optimize the reaction conditions. Optimal conditions were acid concentration, 0.7 M; substrate molar ratio, 1 : 1 alcohol-acid; temperature 45 C; biocatalyst content, 14% (by substrate mass). Under these conditions, it was possible to obtain a yield of 86% of butyl butyrate in 2.5 h. When molecular sieves (90 mg mmol À1 butytic acid) were added to the reaction, the observed yield increased to 96%. The biocatalyst was used in 5 successive reaction cycles keeping 100% of its initial activity. The overall process productivity was improved 2-fold when compared to the traditional mechanical agitation, showing that ultrasound is a promising technology for application in biocatalysis.

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Section: Effects Of Organic Solvents On the Enzyme Performancementioning

confidence: 99%

Ultrasound technology and molecular sieves improve the thermodynamically controlled esterification of butyric acid mediated by immobilized lipase from Rhizomucor miehei

et al. 2014

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“…Increasing attention has been concentrated on enzymatic synthesis in supercritical carbon dioxide (SC‐CO 2 ) for biocatalytic reactions because CO 2 is nontoxic, readily available, inexpensive and easy to remove without leaving residuals in a product matrix. Enzymatic synthesis in SC‐CO 2 has been performed with respect to amidation, esterification, transesterification, carboxylation, acetylation, enantioselection, transglycosylation, reduction and hydrolysis . Many applications of SC‐CO 2 for performing enzyme catalyzed processes have revealed that it is an important sustainable, environmentally friendly and simple approach.…”

Section: Introductionmentioning

confidence: 99%

Effect of sub‐ and super‐critical CO₂ pretreatment on conformation and catalytic properties evaluation of two commercial enzymes of CALB and Lipase PS

Liu

Chen

Wang

2013

J of Chemical Tech & Biotech

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BACKGROUND: It is vitally important to understand the effect of sub-/super-critical CO 2 pretreatment on enzyme conformation and its activity, which should improve the understanding of enzymatic biotransformation applications in nonaqueous media. This study evaluated the effect of sub-/super-critical CO 2 treatment, including pressure (6 and 10 MPa), exposure time (20, 30 and 150 min) and temperature (35 and 40 • C), on the conformation (e.g. 1D, 2D and 3D structures) and catalytic properties (e.g. residual activity, kinetics constants (K m and V max ), activation energies (E α ), thermo-stability and organic solvent tolerance) of two commercial enzymes, CALB and lipase PS in their solution forms.RESULTS: Compared with the blank control, the 1D structure of both treated lipases was unchanged, whereas their 2D and 3D structures were altered to some extent. The highest relative activities were 105% and 116% for CALB and lipase PS, respectively. For CALB, V max /K m value significantly increased, while for lipase PS, V max /K m value was almost constant. Both treated enzymes showed high thermo-stability with recovery of enzyme activity up to 76% and 80%, respectively. Also, both treated enzymes presented high organic solvent tolerance. CONCLUSIONS: It was speculated that 2D, 3D structure alterations were probably responsible for the satisfactory catalytic properties of enzymes treated with sub-/super-critical CO 2 .

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“…The pervious literature has reported that the regioselectivity and yields of lipase‐catalyzed reactions were dependent on the nature of the organic solvent used . Several organic solvents of low toxicity in an aqueous two‐phase system were investigated in our research.…”

Section: Resultsmentioning

confidence: 99%

Candida rugosa lipase‐catalyzed synthesis of sucrose‐6‐acetate in a 2‐butanol/buffer two‐phase system

Xiang

Qian

Liu

et al. 2013

Engineering in Life Sciences

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Sucrose‐6‐acetate, a short‐chain monoester, is an important intermediate for the preparation of sucralose. Regioselective transformations of mono‐ and oligosaccharides by enzymes have been performed in organic solvents. The present study was carried out with Candida rugosa lipase to synthesize sucrose‐6‐acetate by transesterification of sucrose and vinyl acetate in a two‐phase system consisting of a buffer solution and an organic solvent. The screening results revealed that 2‐butanol/Tris‐HCl was the optimal two‐phase system for biocatalysis, and other factors influencing the synthesis of sucrose‐6‐acetate were also studied. Three major factors (temperature, initial buffer pH, and molar ratio of substrates) were identified through Plackett–Burman design, and the response surface methodology was employed to optimize the reaction process. Under optimal conditions, the yield of sucrose‐6‐acetate reached up to 57.42%. The aqueous two‐phase system was successfully applied to the synthesis of sucrose‐6‐acetate with high yield, low toxicity, good resolution, low cost, and simple scale‐up.

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Enzymatic synthesis of short‐chain esters in n‐hexane and supercritical carbon dioxide: Effect of the acid chain length

Cited by 22 publications

References 22 publications

Ultrasound technology and molecular sieves improve the thermodynamically controlled esterification of butyric acid mediated by immobilized lipase from Rhizomucor miehei

Ultrasound technology and molecular sieves improve the thermodynamically controlled esterification of butyric acid mediated by immobilized lipase from Rhizomucor miehei

Effect of sub‐ and super‐critical CO₂ pretreatment on conformation and catalytic properties evaluation of two commercial enzymes of CALB and Lipase PS

Candida rugosa lipase‐catalyzed synthesis of sucrose‐6‐acetate in a 2‐butanol/buffer two‐phase system

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Enzymatic synthesis of short‐chain esters in n‐hexane and supercritical carbon dioxide: Effect of the acid chain length

Cited by 22 publications

References 22 publications

Ultrasound technology and molecular sieves improve the thermodynamically controlled esterification of butyric acid mediated by immobilized lipase from Rhizomucor miehei

Ultrasound technology and molecular sieves improve the thermodynamically controlled esterification of butyric acid mediated by immobilized lipase from Rhizomucor miehei

Effect of sub‐ and super‐critical CO2 pretreatment on conformation and catalytic properties evaluation of two commercial enzymes of CALB and Lipase PS

Candida rugosa lipase‐catalyzed synthesis of sucrose‐6‐acetate in a 2‐butanol/buffer two‐phase system

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Product

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Effect of sub‐ and super‐critical CO₂ pretreatment on conformation and catalytic properties evaluation of two commercial enzymes of CALB and Lipase PS