Browsing by Author "H. S. Shin"

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    Biotransformation of benzeldehyde to L-phenylacetylcarbinol, an intermediate in L-ephedrine production, by immobilized Candida utilis
    (2012-11-14) H. S. Shin; P. L. Rogers
    Biotransformation of benzaldehyde to Lphenylacetylcarbinol (L-PAC) as a key intermediate for L-ephedrine synthesis has been evaluated using immobilized Candida utilis. During biotransformation, the benzaldehyde level and respiratory quotient signiÞ- cantly a¤ected both L-PAC and by-product benzyl alcohol formation. By controlling the benzaldehyde level at 2 g/l, maintaining a respiratory quotient of 5Ð7 and pulse feeding glucose, a Þnal concentration of 15.2 g/l L-PAC was achieved in a fed-batch process. This compares with previous published results of 10Ð12 g/l in batch culture and 10 g/l L-PAC in a semicontinuous process with immobilized Saccharomyces cerevisiae. In a single stage continuous process with immobilized C. utilis, the steady state L-PAC concentration was signiÞ- cantly reduced because of the sustained toxic e¤ects of benzaldehyde.
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    Biotransformation of benzeldehyde to L-phenylacetylcarbinol, an intermediate in L-ephedrine production, by immobilized Candida utilis
    (2012-11-14) H. S. Shin; P. L. Rogers
    Biotransformation of benzaldehyde to Lphenylacetylcarbinol (L-PAC) as a key intermediate for L-ephedrine synthesis has been evaluated using immobilized Candida utilis. During biotransformation, the benzaldehyde level and respiratory quotient signiÞ- cantly a¤ected both L-PAC and by-product benzyl alcohol formation. By controlling the benzaldehyde level at 2 g/l, maintaining a respiratory quotient of 5Ð7 and pulse feeding glucose, a Þnal concentration of 15.2 g/l L-PAC was achieved in a fed-batch process. This compares with previous published results of 10Ð12 g/l in batch culture and 10 g/l L-PAC in a semicontinuous process with immobilized Saccharomyces cerevisiae. In a single stage continuous process with immobilized C. utilis, the steady state L-PAC concentration was signiÞ- cantly reduced because of the sustained toxic e¤ects of benzaldehyde.