References
- Akolkar , S. K. , Sajgure , A. , and Lele , S. S. ( 2005 ). Lactase production from Lactobacillus acidophilus , World J. Microbiol. Biotechnol. , 21 , 1119 – 1122 .
- Anand , H. , Balasundaram , B. , Pandit , A. B. , and Harrison , S. T. L. ( 2007 ). The effect of chemical pretreatment combined with mechanical disruption on the extent of disruption and release of intracellular protein from E. coli , Biochem. Eng. J. , 35 , 166 – 173 .
- Balasundaram , B. , and Pandit , A. B. ( 2001 ). Significance of location of enzymes on their release during microbial cell disruption , Biotechnol. Bioeng. , 75 , 607 – 614 .
- Balasundaram , B. , Harrison , S. , and Bracewell , D. G. ( 2009 ). Advances in product release strategies and impact on bioprocess design , Trends. Biotechnol. , 27 , 477 – 485 .
- Chisti , Y. , and Moo-Young , M. ( 1986 ). Disruption of microbial cells for intracellular products , Enzyme Microb. Technol. , 8 , 194 – 204 .
- Choonia , H. S. , and Lele , S. S. ( 2011 ). Release of β-galactosidase from indigenous Lactobacillus acidophilus by ultrasonication: Process optimization , Chem. Eng. Commun. , 198 , 668 – 677 .
- Cort , S. D. , Shantha Kumara , H. M. C. , and Verachert , H. ( 1994 ). Localization and characterization of glucosidase activity in Lactobacillus brevis , Appl. Environ. Microbiol. , 60 , 3074 – 3078 .
- Dickson , R. C. , and Martin , J. S. ( 1980 ). Physiological studies of β-galactosidase induction in Kluveromyces lactis , J. Bacteriol. , 142 , 777 – 785 .
- Diels , A. M. J. , and Michiels , C. W. ( 2006 ). High-pressure homogenization as a non-thermal technique for the inactivation of microorganisms , Crit. Rev. Microbiol. , 32 , 201 – 216 .
- Farkade , V. D. , Harrison , S. , and Pandit , A. B. (2005). Heat induced translocation of proteins and enzymes within the cell: An effective way to optimize the microbial cell disruption process, Biochem. Eng. J. , 23, 247–257.
- Harrison , S. T. L. ( 1991 ). Bacterial cell disruption: A key unit operation in the recovery of intracellular products , Biotechnol. Adv. , 9 , 217 – 40 .
- Lowry , O. H. , Rosenborough , N. J. , Farr , A. L. , and Randall , R. J. ( 1951 ). Protein measurement with Folin phenol reagent , J. Biol. Chem. , 193 , 65 – 75 .
- Middelberg , A. P. G. ( 1995 ). Process cell disruption of microorganisms , Biotechnol. Adv. , 13 , 491 – 551 .
- Saboya , L. V. , Maillard , M. V. , and Lortal , S. ( 2003 ). Efficient mechanical disruption of Lactobacillus helveticus, Lactococcus lactis and Propionibacterium freudenreichii by a new high-pressure homogenizer and recovery of intracellular aminotransferase activity , J. Ind. Microbiol. Biotechnol. , 30 , 1 – 5 .
- Saptarshi , S. D. , and Lele , S. S. ( 2010 ). Application of Evolutionary Optimization technique in maximizing the recovery of L-asparaginase from E. caratovora MTCC 1428 , Global J. Biotechnol. Biochem. , 5 , 97 – 105 .
- Sauer , T. , Robinson , C. W. , and Glick , B. R. ( 1989 ). Disruption of native and recombinant E. coli in a high pressure homogenizer , Biotechnol. Bioeng. , 33 , 1330 – 1342 .
- Shifrin , S. , Solis , B. G. , and Chaiken , I. M. ( 1973 ). L-asparaginase from Erwinia carotovora: Physicochemical properties of native and succinylated enzyme , J. Biol. Chem. , 248 , 3464 – 3469 .
- Umakoshi , H. , Kuboi , R. , Komasawa , I. , Tsuchido , T. , and Matsumura , Y. ( 1998 ). Heat induced translocation of cytoplasmic β-galactosidase across inner membrane of E. coli , Biotechnol. Prog. , 14 , 210 – 217 .
- Wriston , Jr. , J. C. ( 1970 ). Asparaginase , Methods Enzymol. , 17 , 732 – 742 .
- Wuytack , E. Y. , Diels , A. M. J. , and Michiels , C. W. ( 2002 ). Bacterial inactivation by high-pressure homogenization and high hydrostatic pressure , Int. J. Food Microbiol. , 77 , 205 – 212 .