Publications

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[ Author(Asc)] Title Type Year
L
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
Lin, W. J. , Kuo, B. Y. , & Chou, C. P. . (2001). A biochemical engineering approach for enhancing production of recombinant penicillin acylase in Escherichia coli. Bioprocess and Biosystems Engineering, 24, 239-247.
Lall, D. , Miscevic, D. , Bruder, M. , Westbrook, A. , Aucoin, M. , Moo-Young, M. , & Chou, C. P. . (2021). Strain engineering and bioprocessing strategies for biobased production of porphobilinogen in Escherichia coli. Bioresources and Bioprocessing, 8, 122. 2021_strain_engineering_and_bioprocessing_strategies_for_biobased_production_of_porphobilinogen_in_escherichia_coli.pdf
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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.
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Gheshlaghi, R. , Scharer, J. M. , Moo-Young, M. , & Chou, C. P. . (2009). Metabolic pathways of clostridia for producing butanol. Biotechnology Advances, 27, 764-781. 2009_metabolic_pathways_of_clostridia_for_producing_butanol.pdf
Ge, W. , Arp, J. , Lian, D. M. , Liu, W. H. , Baroja, M. L. , Jiang, J. F. , Ramcharran, S. , et al. (2010). Immunosuppression Involving Soluble CD83 Induces Tolerogenic Dendritic Cells That Prevent Cardiac Allograft Rejection. Transplantation, 90, 1145-1156.
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Chou, C. P. . (2023). Biotechnology, "Intellectual Properties", and "Human Rights". Contact Dr. Chou for the preprint.
Chou, C. P. . (2008). Therapeutic activity of soluble CD83: Comments on Pashine et al. Immunology Letters, 115, 20-20.
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
Chou, C. P. , Lin, M. I. , & Wang, W. C. . (2000). Production of heterologous Providencia rettgeri penicillin acylase in Escherichia coli. Journal of the Chinese Institute of Chemical Engineers, 31, 135-144.
Chou, C. P. , Lin, W. J. , Kuo, B. Y. , & Yu, C. C. . (2000). Genetic strategies to enhance penicillin acylase production in Escherichia coli. Enzyme and Microbial Technology, 27, 766-773.
Chou, C. P. , & Tseng, J. H. . (2000). Effect of carbon source on inclusion body formation upon overproduction of periplasmic penicillin acylase in Escherichia coli. Journal of the Chinese Institute of Chemical Engineers, 31, 219-224.
Chou, C. P. , Wang, W. C. , & Lin, M. I. . (2000). An approach for enhancing heterologous production of Providencia rettgeri penicillin acylase in Escherichia coli. Biotechnology Progress, 16, 315-318.
Chou, C. P. , Kuo, B. Y. , & Lin, W. J. . (1999). Optimization of the host/vector system and culture conditions for production of penicillin acylase in Escherichia coli. Journal of Bioscience and Bioengineering, 88, 160-167.
Chou, C. P. , Yu, C. C. , Lin, W. J. , Kuo, B. Y. , & Wang, W. C. . (1999). Novel strategy for efficient screening and construction of host/vector systems to overproduce penicillin acylase in Escherichia coli. Biotechnology and Bioengineering, 65, 219-226. 1999_novel_strategy_for_efficient_screening_and_construction_of_host_vector_systems_to_overproduce_penicillin_acylase_in_escherichia_coli.pdf
Chou, C. P. , Tseng, J. H. , Lin, M. I. , Lin, H. K. , & Yu, C. C. . (1999). Manipulation of carbon assimilation with respect to expression of the pac gene for improving production of penicillin acylase in Escherichia coli. Journal of Biotechnology, 69, 27-38.
Chou, C. P. , Yu, C. C. , Tseng, J. H. , Lin, M. I. , & Lin, H. K. . (1999). Genetic manipulation to identify limiting steps and develop strategies for high-level expression of penicillin acylase in Escherichia coli. Biotechnology and Bioengineering, 63, 263-272. 1999_genetic_manipulation_to_identify_limiting_steps_and_develop_strategies_for_high-level_expression_of_penicillin_acylase_in_escherichia_coli.pdf
Chou, C. P. , Tseng, J. H. , Kuo, B. Y. , Lai, K. M. , Lin, M. I. , & Lin, H. K. . (1999). Effect of SecB chaperone on production of periplasmic penicillin acylase in Escherichia coli. Biotechnology Progress, 15, 439-445.

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