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Bioscience, Biotechnology, and Biochemistry Volume 72, 2008 - Issue 11
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Original Articles

Asymmetric Synthesis of (S)-α-Methylbenzylamine by Recombinant Escherichia coli Co-Expressing Omega-Transaminase and Acetolactate Synthase

Hyungdon YUNSchool of Biotechnology, Yeungnam University
&
Byung-Gee KIMSchool of Chemical and Biological Engineering, Seoul National University
Pages 3030-3033 | Received 17 Jun 2008, Accepted 02 Aug 2008, Published online: 22 May 2014

  • 1) Hwang, B.-Y., Cho, B.-K., Yun, H., Koteshwar, K., and Kim, B. G., Revisit of aminotransferase in the genomic era and its application to biocatalysis. J. Mol. Cat. B: Enzymatic, 37, 47–55 (2005).
  • 2) Christen, P., and Metzler, D. E., “Transaminases,” John Wiley & Sons Inc., New York (1985).
  • 3) Shin, J.-S., Yun, H., Jang, J.-W., Park, I., and Kim, B.-G., Purification, characterization, and molecular cloning of a novel amine: pyruvate transaminase from Vibrio fluvialis JS17. Appl. Microbiol. Biotechnol., 61, 463–471 (2003).
  • 4) Shin, J.-S., and Kim, B.-G., Kinetic resolution of α-methylbenzylamine with ω-transaminase screened from soil microorganisms: application of a biphasic system to overcome product inhibition. Biotechnol. Bioeng., 55, 348–358 (1997).
  • 5) Shin, J.-S., and Kim, B.-G., Modeling of the kinetic resolution of α-methylbenzylamine with ω-transamination in a two-liquid-phase system. Enzyme Microb. Technol., 25, 426–432 (1999).
  • 6) Yun, H., Kim, J., Kinnera, K., and Kim, B.-G., Synthesis of enantiomerically pure trans-(1R,2R)- and cis-(1S,2R)-1-amino-2-indanol by lipase and ω-transaminase. Biotechnol. Bioeng., 93, 391–395 (2006).
  • 7) Shin, J.-S., and Kim, B.-G., Asymmetric synthesis of chiral amines with ω-transaminase. Biotechnol. Bioeng., 65, 206–211 (1999).
  • 8) Höhne, M., Kühl, S., Robins, K., and Bornscheuer, U. T., Efficient asymmetric synthesis of chiral amines by combining transaminase and pyruvate decarboxylase. Chembiochem, 9, 363–365 (2008).
  • 9) Fotheringham, I. G., Grinter, N., Pantaleone, D. P., Senkpeil, R. F., and Taylor, P. P., Engineering of a novel biochemical pathway for the biosynthesis of L-2-aminobutyric acid in Escherichia coli K12. Bioorg. Med. Chem., 7, 2209–2213 (1999).
  • 10) Renna, M. C., Najimudin, N., Winik, L. R., and Zahler, S. A., Regulation of the Bacillus subtilis alsS, alsD, and alsR genes involved in post-exponential-phase production of acetoin. J. Bacteriol., 175, 3863–3875 (1993).
  • 11) Aristidou, A. A., San, K. Y., and Bennett, G. N., Metabolic engineering of Escherichia coli to enhance recombinant protein production through acetate reduction. Biotechnol. Prog., 11, 475–478 (1995).
  • 12) Yin, B. B., Chen, Y. C., Lin, S. C., and Hsu, W. H., Production of D-amino acid precursors with permeabilized recombinant Escherichia coli with D-hydantoinase activity. Process Biochem., 35, 915–921 (2000).
  • 13) Shin, J.-S., Kim, B.-G., and Shin, D.-H., Kinetic resolution of chiral amines using packed-bed reactor. Enzyme Microb. Technol., 29, 232–239 (2001).

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