Plant power: The ultimate way to 'go green'

Aktivitet: Tale eller præsentation - typerForedrag og mundtlige bidrag

Beskrivelse

Photosynthetic organisms are able to use solar energy and carbon dioxide for the production of organic compounds. Based on initial formation and subsequent turn-over of carbohydrates, plants channel energy flux and carbon into specific biosynthetic pathways to optimize growth and development and adapts to environmental challenges by producing bioactive defense compounds when attacked by insects and microbes. Several of these compounds are structurally complex and highly valuable pharmaceuticals used in the treatment of serious human diseases like cancer. Unfortunately such compounds are typically produced in small amounts by plants. Most of the pathways responsible for the formation of the compounds involve cytochrome P450 catalyzed key steps difficult to copy using organic chemical synthesis. Using the “share-your- parts” principle of synthetic biology, we have now succeeded in breaking the evolutionary compartmentalization of energy generation and production of bioactive compounds. The P450s were incorporated into the thylakoid membranes and shown to be driven directly by the reducing power generated by photosystem I. The long term goal is to build a supra-molecular enzyme complex catalysing light driven synthesis of pharmaceuticals and other interesting bioactive molecules. The production systems are being developed and optimised using transient expression in tobacco as the experimental system followed by stable transformation of cyanobacteria and moss strains grown in closed photobioreactors. Key target compounds are structurally complex diterpenoids that are impossible or costly to synthesise by chemical means.
Periode11 jul. 2013
BegivenhedstitelBioBricks Foundation SB:06: The Sixth International Meeting on Synthetic Biology
BegivenhedstypeKonference
PlaceringLondon, StorbritannienVis på kort