Difference between revisions of "Team:UMaryland/sideprojects"
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− | <p> Lutein requires α-carotene as a precursor in its biosynthesis. In most photosynthetic organisms, independent activity of LYCB and LYCE produces stoichiometric levels of α- carotene as well as β-carotene (a useful molecule in its own right, but a contaminating side-product in lutein synthesis). To increase the ratio of α-carotene to β-carotene, we plan on producing the two cyclases separately in one E. coli, with the LYCE gene under a stronger promoter than the LYCB gene. This attempts to force carotenoid synthesis through α-carotene via increased specific activity of the ε-cyclase. We will tailor associated promoters as well as induction conditions in order to maximize the α-carotene/β-carotene ratio. | + | <p style = "font-size:16px"> Lutein requires α-carotene as a precursor in its biosynthesis. In most photosynthetic organisms, independent activity of LYCB and LYCE produces stoichiometric levels of α- carotene as well as β-carotene (a useful molecule in its own right, but a contaminating side-product in lutein synthesis). To increase the ratio of α-carotene to β-carotene, we plan on producing the two cyclases separately in one E. coli, with the LYCE gene under a stronger promoter than the LYCB gene. This attempts to force carotenoid synthesis through α-carotene via increased specific activity of the ε-cyclase. We will tailor associated promoters as well as induction conditions in order to maximize the α-carotene/β-carotene ratio.</p> |
− | <p> | + | <p style = "font-size:16px"> |
− | Thus far, we have cloned and submitted the ε-cyclase and -hydroxylase to the iGEM registry (see parts page), to complement pre-existing β-cyclase and hydroxylase biobricks. We have also developed a basic version of a mathematical modeling system capable of predicting output of the enzymes contributing to α-carotene production. After tuning its predictive ability to the experimentally determined output of the biosynthetic pathway, we intend to create an easy-to-use interface so that other iGEMers may input basic kinetic data and production goals and receive information on appropriate expression levels for the enzymes in their pathway of interest, as well as candidate promoters in the iGEM registry that may approximate this level of expression. | + | Thus far, we have cloned and submitted the ε-cyclase and -hydroxylase to the iGEM registry (see parts page), to complement pre-existing β-cyclase and hydroxylase biobricks. We have also developed a basic version of a mathematical modeling system capable of predicting output of the enzymes contributing to α-carotene production. After tuning its predictive ability to the experimentally determined output of the biosynthetic pathway, we intend to create an easy-to-use interface so that other iGEMers may input basic kinetic data and production goals and receive information on appropriate expression levels for the enzymes in their pathway of interest, as well as candidate promoters in the iGEM registry that may approximate this level of expression.</p> |
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Kim, S., Kim, J., Ryu, J., Jung, J., Kim, J. (2009) High-level production of lycopene in metabolically engineered E. | Kim, S., Kim, J., Ryu, J., Jung, J., Kim, J. (2009) High-level production of lycopene in metabolically engineered E. | ||
− | coli. Process Biochemistry, 44 (8), 899-905 | + | coli. <i>Process Biochemistry</i>, 44 (8), 899-905 |
<p> | <p> | ||
Liu, R., Wang, T., Zhang, B., Qin, L., Wu, C., Li, Q., and Ma, L. (2014) Lutein and zeaxanthin supplementation and | Liu, R., Wang, T., Zhang, B., Qin, L., Wu, C., Li, Q., and Ma, L. (2014) Lutein and zeaxanthin supplementation and | ||
− | association with visual function in age-related macular degeneration. Invest. Opthalmol. Vis. Sci (1):252-8. | + | association with visual function in age-related macular degeneration. <i>Invest. Opthalmol. Vis. Sci</i> (1):252-8. |
doi: 10.1167/iovs.14-15553 | doi: 10.1167/iovs.14-15553 | ||
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Wong, W., Su, X., Li, X., Cheung, C., Klein, R., Cheng, C., and Wong, T. (2014) Global prevalence of age-related | Wong, W., Su, X., Li, X., Cheung, C., Klein, R., Cheng, C., and Wong, T. (2014) Global prevalence of age-related | ||
macular degeneration and disease burden projection for 2020 and 2040: a systematic review and metaanalysis. | macular degeneration and disease burden projection for 2020 and 2040: a systematic review and metaanalysis. | ||
− | Lancet Glob. Health (2):e106-16. doi: 10.1016/S2214-109X(13)70145-1 | + | <i>Lancet Glob. Health</i> (2):e106-16. doi: 10.1016/S2214-109X(13)70145-1 |
<p> | <p> |
Revision as of 18:10, 15 September 2015