Publications
] . (2024). High-level bio-based production of coproporphyrin in Escherichia coli. Fermentation, 10(5), 250.
2024_high-level_bio-based_production_of_coproporphyrin_in_escherichia_coli.pdf
2024_high-level_bio-based_production_of_coproporphyrin_in_escherichia_coli.pdf. (2024). Bio-based production of uroporphyrin in Escherichia coli. Synthetic Biology and Engineering, 2(1), 10002. 2024_bio-based_production_of_uroporphyrin_in_escherichia_coli.pdf
2024_bio-based_production_of_uroporphyrin_in_escherichia_coli.pdf. (2023). A toolkit for effective and successive genome engineering of Escherichia coli. Fermentation, 9(1), 14. 2023_a_toolkit_for_effective_and_successive_genome_engineering_of_escherichia_coli.pdf
2023_a_toolkit_for_effective_and_successive_genome_engineering_of_escherichia_coli.pdf. (2023). Biotechnology, "Intellectual Properties", and "Human Rights". Contact Dr. Chou for the detailed story.
(2022). Carbon nanogels exert multipronged attack on resistant bacteria and strongly constrain resistance evolution. Journal of Colloid and Interface Science, 608, 1813-1826. 2022_carbon_nanogels_exert_multipronged_attack_on_resistant_bacteria_and_strongly_constrain_resistance_evolution.pdf
2022_carbon_nanogels_exert_multipronged_attack_on_resistant_bacteria_and_strongly_constrain_resistance_evolution.pdf. (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
2021_strain_engineering_and_bioprocessing_strategies_for_biobased_production_of_porphobilinogen_in_escherichia_coli.pdf. (2021). Bio-based production of poly(3-hydroxybutyrate-co-3-hydroxyvalerate) with modulated monomeric fraction in Escherichia coli. Applied Microbiology and Biotechnology, 105, 1435-1446 . 2021_bio-based_production_of_poly3-hydroxybutyrate-co-3-hydroxyvalerate_with_modulated_monomeric_fraction_in_escherichia_coli.pdf
2021_bio-based_production_of_poly3-hydroxybutyrate-co-3-hydroxyvalerate_with_modulated_monomeric_fraction_in_escherichia_coli.pdf. (2021). Strain engineering for high-level 5-aminolevulinic acid production in Escherichia coli. Biotechnology and Bioengineering, 118, 30-42. 2021_strain_engineering_for_high-level_5-aminolevulinic_acid_production_in_escherichia_coli.pdf
2021_strain_engineering_for_high-level_5-aminolevulinic_acid_production_in_escherichia_coli.pdf. (2020). New insights into affinity proteins for HER2-targeted therapy: beyond trastuzumab. BBA - Reviews on Cancer, 1874, 188448. 2020_new_insights_into_affinity_proteins_for_her2-targeted_therapy.pdf
2020_new_insights_into_affinity_proteins_for_her2-targeted_therapy.pdf. (2020). Integrated strain engineering and bioprocessing strategies for high-level bio-based production of 3-hydroxyvalerate in Escherichia coli. Applied Microbiology and Biotechnology, 104, 5259-5272. 2020_integrated_strain_engineering_and_bioprocessing_strategies_for_high-level_bio-based_production_of_3-hydroxyvalerate_in_escherichia_coli.pdf
2020_integrated_strain_engineering_and_bioprocessing_strategies_for_high-level_bio-based_production_of_3-hydroxyvalerate_in_escherichia_coli.pdf. (2020). High-level heterologous production of propionate in engineered Escherichia coli. Biotechnology and Bioengineering, 117, 1304-1315 . 2020_high-level_heterologous_production_of_propionate_in_engineered_escherichia_coli.pdf
2020_high-level_heterologous_production_of_propionate_in_engineered_escherichia_coli.pdf. (2020). Heterologous production of 3-hydroxyvalerate in engineered Escherichia coli. Metabolic Engineering, 61, 141-151. 2020_heterologous_production_of_3-hydroxyvalerate_in_engineered_escherichia_coli_.pdf
2020_heterologous_production_of_3-hydroxyvalerate_in_engineered_escherichia_coli_.pdf. (2019). Strain engineering for microbial production of value-added chemicals and fuels from glycerol. Biotechnology Advances, 37, 538-568. 2019_strain_engineering_for_microbial_production_of_value-added_chemicals_and_fuels_from_glycerol.pdf
2019_strain_engineering_for_microbial_production_of_value-added_chemicals_and_fuels_from_glycerol.pdf. (2019). Production of cellulosic butyrate and 3-hydroxybutyrate in engineered Escherichia coli. Applied Microbiology and Biotechnology, 103, 5215-5230. 2019_production_of_cellulosic_butyrate_and_3-hydroxybutyrate_in_engineered_escherichia_coli.pdf
2019_production_of_cellulosic_butyrate_and_3-hydroxybutyrate_in_engineered_escherichia_coli.pdf. (2018). Application of hydrocarbon and perfluorocarbon oxygen vectors to enhance heterologous production of hyaluronic acid in engineered Bacillus subtilis. Biotechnology and Bioengineering, 115, 1239-1252. 2018_application_of_hydrocarbon_and_perfluorocarbon_oxygen_vectors_to_enhance_heterologous_production_of_hyaluronic_acid_in_engineered_bacillus_subtilis.pdf
2018_application_of_hydrocarbon_and_perfluorocarbon_oxygen_vectors_to_enhance_heterologous_production_of_hyaluronic_acid_in_engineered_bacillus_subtilis.pdf. (2018). Engineering of cell membrane to enhance heterologous production of hyaluronic acid in Bacillus subtilis. Biotechnology and Bioengineering, 115, 216-231. 2018_engineering_of_cell_membrane_to_enhance_heterologous_production_of_hyaluronic_acid_in_bacillus_subtilis.pdf
2018_engineering_of_cell_membrane_to_enhance_heterologous_production_of_hyaluronic_acid_in_bacillus_subtilis.pdf. (2018). Metabolic engineering of Bacillus subtilis for l-valine overproduction. Biotechnology and Bioengineering, 115, 2778-2792. 2018_metabolic_engineering_of_bacillus_subtilis_forl-valine_overproduction.pdf
2018_metabolic_engineering_of_bacillus_subtilis_forl-valine_overproduction.pdf. (2017). Recent advances in engineering propionyl-CoA metabolism for microbial production of value-added chemicals and biofuels. Critical Reviews in Biotechnology, 37, 701-722. 2017_recent_advances_in_engineering_propionyl_coa_metabolism_for_microbial_production_of_value_added_chemicals_and_biofuels.pdf
2017_recent_advances_in_engineering_propionyl_coa_metabolism_for_microbial_production_of_value_added_chemicals_and_biofuels.pdf