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Flow Cytometric Analysis of Human Lysozyme Production in Recombinant Saccharomyces cerevisiae
Peterson Marvin S.,Kim Myoung-Dong,Han Ki-Cheol,Kim Ji-Hyun,Seo Jin-Ho The Korean Society for Biotechnology and Bioengine 2002 Biotechnology and Bioprocess Engineering Vol.7 No.1
Flow cytometric techniques were used to investigate cell size, protein content and cell cycle behavior of recombinant Saccharomyces cerevisiae strains producing human lysozyme (HLZ). Two different signal sequences, the native yeast $MF\alpha1$ signal sequence and the rat $\alpha-amylase$ signal sequence, were used for secretion of HLZ. The strain containing the rat $\alpha-amylase$ signal sequence showed a higher level of internal lysozyme and lower specific growth rates. Flow cytometric analysis of the total protein content and cell size showed the strain harboring the native yeast signal sequence had a higher total protein content than the strain containing the rat $\alpha-amylase$ signal sequence. Cell cycle analysis indicated that the two lysozyme producing recombinant strains had an increased number of cells in the $G_2+M$ phase of the yeast cell cycle compared with the host strain SEY2102.
Flow Cytometric Analysis of Human Lysozyme Production in Recombinant Saccharomyces cerevisiae
서진호,Marvin S. Peterson,김명동,한기철,Ji-Hyun Kim 한국생물공학회 2002 Biotechnology and Bioprocess Engineering Vol.7 No.1
Flow cytometric techniques were used to investigate cell size, protein content and cell cycle behavior of recombinant Saccharomyces cerevisiae strains producing human lysozyme (HLZ). Two different signal sequences, the native yeast MFa1 signal sequence and the rat α-amylase signal sequence, were used for secretion of HLZ. The strain containing the rat α-amylase signal sequence showed a higher level of internal lysozyme and lower specific growth rates. Flow cytometric analysis of the total protein content and cell size showed the strain harboring the native yeast signal sequence had a higher total protein content than the strain containing the rat α-amylase signal sequence. Cell cycle analysis indicated that the two lysozyme producing recombinant strains had an increased number of cells in the G2+M phase of the yeast cell cycle compared with the host strain SEY2102.