Synthesis of methyl cinnamate using immobilized lipase from B. licheniformis MTCC-10498

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Synthesis of methyl cinnamate using immobilized lipase from B. licheniformis MTCC-10498

Author Affiliations

¹ Department of Biotechnology, Himachal Pradesh University, Shimla-171005, HP, INDIA

Res. J. Recent Sci., Volume 1, Issue (3), Pages 68-71, March,2 (2012)

Abstract

Methyl cinnamate was synthesized by the reaction of methyl alcohol with cinnamic acid using silica immobilizedlicheniformis MTCC-10498. The silica-bound lipase was used to perform esterification of methanol with cinnamic acid in equimolar ratio (100 mM each) in DMSO. Moreover, pure methyl cinnamate was used as internal standard. Methyl cinnamate was synthesized by manipulating various parameter i.e. relative proportions of reactants, reaction temperature, reaction timeconcentration of molecular sieves and salt ions. Finally, 64.3 mM methyl cinnamate was synthesized at 65°C using 100mM each of the reactants in 12 h in the presence of molecular sieves (100 mg/reaction volume) under shaking at 120 rpm. The immobilized lipase synthesized 50 % ester u

References

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[ref1] Nenandis et al., Radical scavenging potential of phenolic compounds encountered in O. europaea products as indicated by calculation of bond dissociation enthalpy and ionization potential values, Journal of Agricultural and Food Chemistry,26, 295–299 (2004)

[ref2] Figueroa et al., Phenolic acids enzymatic lipophilization, J. Agric. Food Chem.,53, 2779- 2787 (2005)

[ref3] Priya, Synthesis of Hydrocinnamic Esters by Pseudomonas cepacia Lipase, Enzyme and Microbial Technology, 32, 485 (2003)

[ref4] International Fragrance Association, Use Level Survey, (2001)

[ref5] Flavor and Extract Manufacturers Association, Recent progress in the consideration of flavoring ingredients under the food additives amendment III, GRAS Substances. Food Technology, 19 (2, part 2), 151–197 (1965)

[ref6] Joint Expert Committee on Food Additives, Safety evaluation of certain food additives, Who Food Additives Series: 46.Prepared by the Fifty-fifth meeting of the Joint FAO/WHO Expert Committee on Food Additives. World Health Organization, Geneva, (2000)

[ref7] Sharma C.K. et al., Synthesis of medically important ethyl cinnamate ester by porcine pancreatic lipase immobilized on poly (AAc-co-HPMA-cl-EGDMA) hydrogel, J Appl Polym Sci,121(5), 2674-2679 (2011)

[ref8] Winkler et al., Glucogen hyaluronate and some other polysaccharides greatly enhance the formation of exolipase by Serratia marcescens, J Bacteriol,138, 663–670 (1979)

[ref9] Kanwar S.S. et al., Short-chain ester synthesis by transesterification employing poly (MAc-co- DMA-cl-MBAm) hydrogel-bound lipase of Bacillus coagulans MTCC-6375, J Appl Polym Sci,109, 1063-1071 (2008)

[ref10] Claon et al., Effect of reaction parameters on SP435 lipase catalyzed synthesis of citronellyl acetate in organic solvent, Enzyme Microb Technol, 16, 835-838 (1994)

[ref11] Halling, Thermodynamic predictions for biocatalysisin non-conventional media: Theory, tests and recommendations for experimental design and analysis,Enzyme MicrobTechnol, 16, 178-206 (1994)

[ref12] PeryR.H. et al., In Chemical Engineering Handbook, McGraw-Hill, New York, 16, 2-11 (1973)