Publications

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Author Title [ Type(Asc)] Year
Journal Article
Xu, Y. L. , Yasin, A. , Tang, R. , Scharer, J. M. , Moo-Young, M. , & Chou, C. P. . (2008). Heterologous expression of lipase in Escherichia coli is limited by folding and disulfide bond formation. Applied Microbiology and Biotechnology, 81, 79-87.
Xu, Y. L. , Yasin, A. , Wucherpfennig, T. , & Chou, C. P. . (2008). Enhancing functional expression of heterologous lipase in the periplasm of Escherichia coli. World Journal of Microbiology & Biotechnology, 24, 2827-2835.
Xu, Y. L. , Lewis, D. , & Chou, C. P. . (2008). Effect of folding factors in rescuing unstable heterologous lipase B to enhance its overexpression in the periplasm of Escherichia coli. Applied Microbiology and Biotechnology, 79, 1035-1044.
Narayanan, N. , & Chou, C. P. . (2008). Physiological improvement to enhance Escherichia coli cell-surface display via reducing extracytoplasmic stress. Biotechnology Progress, 24, 293-301.
Narayanan, N. , & Chou, C. P. . (2008). Periplasmic chaperone FkpA reduces extracytoplasmic stress response and improves cell-surface display on Escherichia coli. Enzyme and Microbial Technology, 42, 506-513.
Narayanan, N. , Follonier, S. , & Chou, C. P. . (2008). In vivo monitoring and alleviation of extracytoplasmic stress to recombinant protein overproduction in the periplasm of Escherichia coli. Biochemical Engineering Journal, 42, 13-19.
Wu, M. S. , Pan, K. L. , & Chou, C. P. . (2007). Effect of heat-shock proteins for relieving physiological stress and enhancing the production of penicillin acylase in Escherichia coli. Biotechnology and Bioengineering, 96, 956-966. 2006_effect_of_heat-shock_proteins_for_relieving_physiological_stress_and_enhancing_the_production_of_penicillin_acylase_in_escherichia_coli.pdf
Chou, C. P. . (2007). Engineering cell physiology to enhance recombinant protein production in Escherichia coli. Applied Microbiology and Biotechnology, 76, 521-532. 2007_engineering_cell_physiology_to_enhance_recombinant_protein_production_in_escherichia_coli.pdf
Xu, Y. L. , Rosenkranz, S. , Weng, C. L. , Scharer, J. M. , Moo-Young, M. , & Chou, C. P. . (2006). Characterization of the T7 promoter system for expressing penicillin acylase in Escherichia coli. Applied Microbiology and Biotechnology, 72, 529-536.
Narayanan, N. , Xu, Y. L. , & Chou, C. P. . (2006). High-level gene expression for recombinant penicillin acylase production using the araB promoter system in Escherichia coli. Biotechnology Progress, 22, 1518-1523.
Narayanan, N. , Hsieh, M. Y. , Xu, Y. L. , & Chou, C. P. . (2006). Arabinose-induction of lac-derived promoter systems for penicillin acylase production in Escherichia coli. Biotechnology Progress, 22, 617-625.
Xu, Y. L. , Weng, C. L. , Narayanan, N. , Hsieh, M. Y. , Anderson, W. A. , Scharer, J. M. , Moo-Young, M. , et al. (2005). Chaperone-mediated folding and maturation of the penicillin acylase precursor in the cytoplasm of Escherichia coli. Applied and Environmental Microbiology, 71, 6247-6253. 2005_chaperone-mediated_folding_and_maturation_of_penicillin_acylase_precursor_in_the_cytoplasm_of_escherichia_coli.pdf
Xu, Y. L. , Hsieh, M. Y. , Narayanan, N. , Anderson, W. A. , Scharer, J. M. , Moo-Young, M. , & Chou, C. P. . (2005). Cytoplasmic overexpression, folding, and processing of penicillin acylase precursor in Escherichia coli. Biotechnology Progress, 21, 1357-1365.
Pan, K. L. , Hsiao, H. C. , Weng, C. L. , Wu, M. S. , & Chou, C. P. . (2003). Roles of DegP in prevention of protein misfolding in the Periplasm upon overexpression of penicillin acylase in Escherichia coli. Journal of Bacteriology, 185, 3020-3030. 2003_roles_of_degp_in_prevention_of_protein_misfolding_in_the_periplasm_upon_overexpression_of_penicillin_acylase_in_escherichia_coli.pdf
Chin, H. L. , Chen, Z. S. , & Chou, C. P. . (2003). Fedbatch operation using Clostridium acetobutylicum suspension culture as biocatalyst for enhancing hydrogen production. Biotechnology Progress, 19, 383-388.
Lin, Y. H. , Hsiao, H. C. , & Chou, C. P. . (2002). Strain improvement to enhance the production of recombinant penicillin acylase in high-cell-density Escherichia coli cultures. Biotechnology Progress, 18, 1458-1461.
Huang, S. W. , Lin, Y. H. , Chin, H. L. , Wang, W. C. , Kuo, B. Y. , & Chou, C. P. . (2002). Effect of pH on high-temperature production of bacterial penicillin acylase in Escherichia coli. Biotechnology Progress, 18, 668-671.
Lin, Y. H. , Fang, W. L. , Lin, W. J. , Huang, S. W. , & Chou, C. P. . (2001). Improving production of penicillin acylase in Escherichia coli via efficient DegP-mediated processing of precursors in periplasm. Process Biochemistry, 37, 23-30.
Lin, W. J. , Huang, S. W. , & Chou, C. P. . (2001). High-level extracellular production of penicillin acylase by genetic engineering of Escherichia coli. Journal of Chemical Technology and Biotechnology, 76, 1030-1037.
Lin, W. J. , Huang, S. W. , & Chou, C. P. . (2001). DegP-coexpression minimizes inclusion-body formation upon overproduction of recombinant penicillin acylase in Escherichia coli. Biotechnology and Bioengineering, 73, 484-492. 2001_degp-coexpression_minimizes_inclusion_body_formation_upon_overproduction_of_recombinant_penicillin_acylase_in_escherichia_coli.pdf

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