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Metabolic engineering Escherichia coli

Pitera, D.J., Paddon, C.J., Newman, J.D. and Keasling, J.D. (2007) Balancing a heterologous mevalonate pathway for improved isoprenoid production in Escherichia coli. Metabolic Engineering, 9, 193-207. [Pg.284]

Schmid, J. W., Mauch, K., Reuss, M., GiUes, E. D. and Kremling, A. (2004). Metabolic design based on a coupled gene expression-metabolic network model of tryptophan production in Escherichia coli. Metabolic Engineering, 6(4), 364-311. [Pg.427]

Alper, H., Jin, Y. S., Moxley, J. R, Stephanopoulos, G. (2005). Identifying gene targets for the metaboiic engineering of lycopene biosynthesis in Escherichia coli. Metabolic Engineering, 7,155-164. [Pg.191]

Gonzalez, R., Murarka, A., Dharmadi, Y, et al., 2008. A new model for the anaerobic fermentation of glycerol in enteric bacteria trunk and auxiliary pathways in Escherichia coli. Metabolic Engineering 10,234-245. [Pg.95]

Jrmg, W, Kang, J., Chu, H., Choi, I., Cho, K., 2014. Elevated production of 3-hydroxy propionic acid by metabolic engineering of the glycerol metabolism in Escherichia coli. Metabolic Engineering 23,116-122. [Pg.115]

Farmer, W.R. and Liao, J.C., Improving lycopene production in Escherichia coli by engineering metabolic control, Nat. Biotechnol. 18, 533, 2000. [Pg.398]

Bernstein HC, Paulson SD, Carlson RP (2012) Synthetic Escherichia coli consortia engineered for syntrophy demonstrate enhanced biomass productivity. J Biotechnol 157 159-166 Blank LM, Kuepfer L (2010) Metabolic flux distributions genetic information, computational predictions, and experimental validation. Appl Microbiol Biotechnol 86 1243-1255 Bloom AJ, Chapin FS, Mooney HA (1985) Resource Umitation in plants - an economic analogy. Annu Rev Ecol Syst 16 363-392... [Pg.153]

FIGURE 9.5 Aerobic metabolism of an Escherichia coli strain engineered to produce succinic acid with a partial tricarboxylic acid cycle (Lin et al., 2005b). [Pg.168]

Gallagher, C.E., Cervantes-Cervantes, M., and Wurtzel, E.T., Surrogate biochemistry use of Escherichia coli to identify plant cDNAs that impact metabolic engineering of carotenoid accumulation, AppZ. Microbiol. Biotechnol. 60, 713, 2003. [Pg.390]

Wang, C., Oh, M.K., and Liao, J.C., Directed evolntion of metabolically engineered Escherichia coli for carotenoid production, Biotechnol. Progr. 16, 922, 2000. [Pg.397]

Matthews, P.D. and Wurtzel, E.T., Metabolic engineering of carotenoid accumulation in Escherichia coli by modulation of the isoprenoid precursor pool with expression of deoxyxylulose phosphate synthase, Appl. Microbiol. Biotechnol. 53, 396, 2000. [Pg.398]

Watts, K. T., R C. Lee et al. (2006). Biosynthesis of plant-specific stilbene polyketides in metabolically engineered Escherichia coli. BMC Biotechnol. 6 22. [Pg.416]

Kennedy, J., Murli, S. and Kealey, J.T. (2003) 6-Deoxyerythronolide B analogue production in Escherichia coli through metabolic pathway engineering. Biochemistry, 42, 14342. [Pg.259]

Kim, S.-W. and Keasling, J.D. (2001) Metabolic engineering of the nonmevalonate isopentenyl diphosphate synthesis pathway in Escherichia coli enhances lycopene production. Biotechnology and Bioengineering, 12, 408-415. [Pg.282]

Murli, S., Kennedy, J., Dayem, L.C. et al. (2003) Metabolic engineering of Escherichia coli for improved 6-deoxyerythronolide B production. Journal of Industrial Microbiology and Biotechnology, 30 500—509. [Pg.283]

ERYTHROMYCIN D Staunton 1997 Wu 2000) high-performance production of 6-deoxyerythronolide has been achieved by fermentation of a metabolically engineered strain of Escherichia coli Pfeifer 2001 methvmvcins. calicheamicins. and pikromvcins METHYMYCIN-CALICHEAMICIN-class and pikromycin-calicheamicin-class Micromonospora echnospora CalH - Streptomyces venezuelae mutant Zhao 1999). [Pg.208]

Leonard E, Lim K-H, Saw P-N, Koffas MAG. 2007a. Engineering central metabolic pathways for high-level flavonoid production in Escherichia coli. App. Env Microb 73 3877-3886. [Pg.546]

A. A. Aristidou, G. N. Bennett, and K. Y. San, Metabolic engineering of Escherichia coli to enhance recombinant protein production through acetate reduction, Biotechnol. Progr. 1995, 375-478. [Pg.455]

Biosynthesis of Poly (3-hydroxy butyrate-co-3-hydroxyalkanoates) by Metabolically Engineered Escherichia coli Strains... [Pg.335]

Biosynthesis of (f )-3-Hydroxyalkanoic Acids by Metabolically Engineered Escherichia coli... [Pg.373]

Recombinant Escherichia coli strains harboring the heterologous PHA biosynthesis genes have been shown to be suitable for the high-level production of PHAs. In addition, several engineered metabolic pathways for the synthesis of various RHAs have recently been established in recombinant E. coli (16-18). [Pg.374]

Dharmadi, Y., Murarka, A. and Gonzalez, R. 2006. Anaerobic Fermentation of Glycerol by Escherichia Coli A New Platform for Metabolic Engineering. Biotechnol. Bioeng., 94, 821— 829. [Pg.95]

J. D. Keasling, S. J. Van Dien and J. Pramanik (1998). Engineering polyphosphate metabolism in Escherichia coli - implication for bioremediation of inorganic contaminants. Biotechnol. Bioeng., 58, 231-239. [Pg.231]

Integration of Systems Biology with Bioprocess Engineering L-Threonine Production by Systems Metabolic Engineering of Escherichia Coli... [Pg.1]

Lee KH, Park JH, Kim TY et al (2007) Systems metabolic engineering of Escherichia coli for L-threonine production. Mol Syst Biol 3 149... [Pg.16]

See other pages where Metabolic engineering Escherichia coli is mentioned: [Pg.177]    [Pg.334]    [Pg.500]    [Pg.327]    [Pg.265]    [Pg.148]    [Pg.601]    [Pg.210]    [Pg.211]    [Pg.553]    [Pg.528]    [Pg.417]    [Pg.335]    [Pg.940]    [Pg.441]    [Pg.51]    [Pg.1]    [Pg.2]   
See also in sourсe #XX -- [ Pg.151 , Pg.448 ]



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