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Issue
Korean Journal of Chemical Engineering,
Vol.28, No.4, 1101-1104, 2011
Constitutive overexpression of Pseudoalteromonas carrageenovora arylsulfatase in E. coli fed-batch culture
Kim MJ, Kim JH, Nam SW
The arylsulf atase gene (astA) from Pseudoalteromonas carrageenovora genome was subcloned into pHCEIA vector, in which the hyper constitutive expression (HCE) promoter from the D-amino acid aminotransferase (DAAT) gene of Geobacillus toebii was employed. When the constructed pHCE-AST was introduced into E. coli, the transformant showed the hydrolyzing activity for 4-methylumbelliferyl-sulfate and p-nitrophenyl-sulfate. When the cell was cultured on fermentor containing MaxyBroth-HD medium with 1% glycerol, the enzyme activity reached 12.8unit/mL. On MaxyBroth-HD medium with 2% glycerol, the cell showed 2.7-fold higher arylsulfatase expression than that with 1% glycerol. The fed-batch cultivation employing MaxyBroth-HD medium and additional feeding of glycerol gave about 143 unit/mL of arylsulfatase at 20 h, which corresponds to 4-fold higher enzyme activity than that of 2% glycerol batch culture. Most of arylsulfatase activity in fed-batch culture was produced in the extracellular medium, whereas the activity in the batch cultures was localized in the periplasmic cell space.
Keywords: Arylsulfatase; Constitutive Expression; Pseudoalteromonas carrageenovora; E. coli
[References]
  1. Duckworth M, Yaphe W, Carbohydr. Res., 16, 189, 1971
  2. Allan GG, Johnson PG, Lay Y, Sarkanen KV, Carbohydr. Res., 17, 234, 1971
  3. Melo MRS, Feitosa JPA, Freitas ALP, de Paula RCM, Carbohydr. Polym., 49, 491, 2002
  4. Renn D, Trends Biotechnol., 15, 9, 1997
  5. Yoon HS, Park YH, Bull Kor. Fish. Soc., 24, 27, 1984
  6. Camden RB, USA Patent, US086751, 1985
  7. Seo HJ, Kim JH, Byun DS, Kim HR, Fish. Sci., 58, 1575, 2001
  8. Amott S, J. Mol. Biol., 90, 269, 1974
  9. Miech C, Dierks T, Selmer T, von Figura K, Schmidt B, J. Biol. Chem., 273, 4835, 1998
  10. Henderson MJ, Milazzo FH, J. Bacteriol., 139, 80, 1979
  11. Murooka Y, Harada T, J. Biol. Chem., 145, 796, 1981
  12. Murooka Y, Yim MH, Harada T, Appl. Environ. Microbiol., 39, 812, 1980
  13. Delisle G, Milazzo FH, Biochim. Biophys. Acta., 212, 505, 1970
  14. Milanesi AA, Bind JWC, Comp. Biochem. Physiol., 41, 473, 1972
  15. Barbeyron T, Potin P, Richard C, Collin O, Kloareg B, Microbiology., 141, 2897, 1995
  16. Poo H, Song JJ, Hong SP, Choi YH, Yun SW, Kim JH, Lee SC, Lee SG, Sung MH, Biotechnol. Lett., 24(14), 1185, 2002
  17. Lim JM, Jang YH, Kim HR, Kim YT, Choi TJ, Kim JK, Nam SW, J. Microbiol. Biotechnol., 14, 777, 2004
  18. Kim DE, Kim KH, Bae YJ, Lee JH, Jang YH, Nam SW, Protein Expr. Purif., 39(1), 107, 2005
  19. Kim MJ, Jang YH, Sung MH, Kim YH, Nam SW, Kor. J. Microbiol. Biotechnol., 35, 11, 2007
  20. Simon P, Richter SM, Urlacher VB, J. Biotechnol., 129, 481, 2007
  21. Lee SK, Keasling JD, Biotechnol. Prog., 22(6), 1547, 2006
  22. Nesmeyanova MA, Kalinin AE, Karamyshev AL, Mikhaleva NI, Krupyanko VI, Process Biochem., 32(1), 1, 1997
  23. Helianti I, Nurhayati N, Ulfah M, Wahyuntari B, Setyahadi S, J. Biomed. Biotechnol., 2010, 980567, 2010
  24. Siurkus J, Panula-Perala J, Horn U, Kraft M, Rimseliene R, Neubauer P, Microb. Cell Fact., 9, 35, 2010
  25. Son YJ, Bae JY, Chong SH, Lee HS, Mo SH, Kim TY, Choe H, Appl. Biochem. Biotechnol., 162(6), 1585, 2010
  26. Jeong KJ, Choi JH, Yoo WM, Keum KC, Yoo NC, Lee SY, Sung MH, Protein Expr. Purif., 36(1), 150, 2004
  27. Jiang H, Shang L, Yoon SH, Lee SY, Yu Z, Biotechnol. Lett., 28(16), 1241, 2006
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