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Issue
Korean Journal of Chemical Engineering,
Vol.28, No.1, 195-202, 2011
Sesame cake protein hydrolysis by alcalase: Effects of process parameters on hydrolysis, solubilisation, and enzyme inactivation
Demirhan E, Apar DK, Ozbek B
We investigated the effects of process parameters (substrate concentration, enzyme concentration, temperature and pH) on the hydrolysis and solubilization of sesame cake protein as well as enzyme stability. The sesame cake protein was hydrolyzed by Alcalase enzyme (a bacterial protease produced by a selected strain of Bacillus Licheniformis) that was chosen among five commercial enzymes examined. The optimum process conditions for hydrolysis and solubilization were obtained as 15 g L^(-1) substrate concentration, 3 ml L^(-1) enzyme concentration, 50 ℃ and pH 8.5. Under these conditions, the values of degree of hydrolysis and solubilization were found as 26.3% and 82.1%, respectively, and enzyme lost its activity by approx. 56% at the end of 120 min processing time. Modeling studies were performed to determine the kinetics of hydrolysis, solubilization and enzyme inactivation. The relationship between hydrolysis and solubilization was found linear for all experimental conditions examined. The inactivation energy of Alcalase at the temperature range of 45-55 ℃ was determined to be 25544 J mol^(-1).
Keywords: Sesame Cake Protein; Alcalase; Hydrolysis; Solubilization; Modelling
[References]
  1. Khalid EK, Babiker EE, El AH, Food Chem., 82, 361, 2003
  2. Nouri L, Legrand J, Popineau Y, Belleville P, Chem. Eng. J., 65(3), 187, 1997
  3. Schmidl MK, Taylor SL, Nordlee JA, Food Technol., 48(10), 77, 1994
  4. Bandyopadhyay K, Ghosh S, J. Agric. Food Chem., 50, 6854, 2002
  5. Chabanon G, Chevalot I, Framboisier X, Chenue S, Marc I, Process Biochem., 42, 1419, 2007
  6. Kim JM, Whang JH, Kim KM, Koh JH, Suh HJ, Process Biochem., 39, 989, 2004
  7. Alder-Nissen J, Enzymic hydrolysis of food Proteins. Elsevier Applied Science Publishers, London and New York, 1986
  8. Alder-Nissen J, J. Agric. Food Chem., 24, 1090, 1976
  9. Apar DK, Oezbek B, J. Chem. Technol. Biotechnol., 82(12), 1107, 2007
  10. Constantinides A, Adu-Amankwa B, Biotechnol. Bioeng., 22, 1543, 1980
  11. Adler Nissen J, US Patent, 4,100,024, 1978
  12. Lee JY, Lee HD, Lee CH, Food Res. Int., 34, 217, 2001
  13. Karamac M, Amarowicz C, Kostyra H, Czech J. Food Sci., 20, 1, 2002
  14. Marquez MC, Fernandez V, Chem. Biochem. Eng. Q., 16, 31, 2002
  15. Periago JM, Vidal LM, Ros G, Rincon F, Martinez C, Lopez G, Rodrigo J, Martinez I, Food Chem., 63, 71, 1998
  16. Soral-Smietana M, Swigon R, Amarowicz R, Sijtsma L, Nahrung., 42, 217, 1998
  17. Moreno MMC, Cuadrado FV, Process Biochem., 28, 481, 1993
  18. Raymundo A, Empis J, Sousa I, Food Res. Technol., 207, 91, 1998
  19. Lqari H, Pedroche J, Giron-Calle J, Vioque J, Millan F, Grasas Y. Aceites., 56(2), 135, 2005
  20. Drago SR, Gonzalez RJ, Innovative Food Sci. Emerg. Technol., 1, 269, 2001
  21. Kong X, Zhou H, Qian H, Food Chem., 101, 615, 2007
  22. Apar DK, Ozbek B, Chem. Biochem. Eng. Q., 22(2), 203, 2008
  23. Escamilla-Silva EM, Guzman-Maldonado SH, Cano-Medinal A, Gonzalez-Alatorre G, J. Sci. Food Agric., 83, 972, 2003
  24. Toshihiko Osawa A, Keiko Nagai O and Kyoko Shibuya N, US Patent, 5,993,795, 1999
  25. Perez C, Saad R, Archivos Latinoamericanos De Nutrition., 34(4), 735, 1984
  26. Taha FS, Ibrahim MA, El-Zanaty EA, Grasa y Aceites., 53(3), 267, 2002
  27. Gonzaleztello P, Camacho F, Jurado E, Paez MP, Guadix EM, Biotechnol. Bioeng., 44(4), 523, 1994
  28. Lowry OH, Rosebrough NJ, Farr AL, Randall RJ, J. Biol.Chem., 193, 265, 1951
  29. Lamas EM, Barros RM, Balcao VM, Malcata FX, Enzyme Microb. Technol., 28(7-8), 642, 2001
  30. Tomarelli R, Charney M, Harding M, J. Lab. Clin. Med., 34, 428, 1949
  31. Barros RM, Malcata FX, Food Chem., 88, 351, 2004
  32. O’Meara GM, Munro PA, Biotechnol. Bioeng., 27, 861, 1985
  33. Marquez MC, Vazquez MA, Process Biochem., 35(1), 111, 1999
  34. Margot A, Flaschel E, Renken A, Process Biochem., 32(3), 217, 1997
  35. Sousa R, Lopes GP, Tardioli PW, Giordano RLC, Almeida PIF, Giordano RC, Brazilian J. Chem. Eng., 2, 147, 2004
  36. Tardioli PW, Sousa RS, Giordano RC, Giordano RLC, Enzyme Microb. Technol., 36(4), 555, 2005
  37. Bombara N, Anon MC, Pilosof AMR, Lebensm.-Wiss. u- Technol., 30, 441, 1997
  38. Sadana A, Henley JP, Biotechnol. Bioeng., 30, 717, 1987
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