Difference between revisions of "Team:Aachen/Project/Outlook"
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=Scientific outlook= | =Scientific outlook= | ||
| − | In our project, we were able to show that our engineered ''E. coli'' strains are able to grow in the presence of high methanol concentrations can also accumulate glycogen. The assimilation of methanol into the metabolism can possibly be improved by building the [[Team:Aachen/Lab/Methanol/Monocistronic_Diversity_Library| monocistronic diversity library]]. | + | In our project, we were able to show that our engineered ''E. coli'' strains are able to grow in the presence of high methanol concentrations and can also accumulate glycogen. The assimilation of methanol into the metabolism can possibly be improved by building the [[Team:Aachen/Lab/Methanol/Monocistronic_Diversity_Library| monocistronic diversity library]]. |
With this strategy, different combinations of promoters for each gene can be tested. | With this strategy, different combinations of promoters for each gene can be tested. | ||
This way the interplay of protein expression and metabolic activity can be optimized. | This way the interplay of protein expression and metabolic activity can be optimized. | ||
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As the genetic tools get more advanced, other organisms can be considered. Next to synthetic chassis organisms, this might also include native methylotrophs such as ''B. methanolicus''. But before glycogen accumulation can be engineered in these organisms, our ''glgP'' knockout strain and the methanol assimilation BioBricks will be valuable tools to further understand the regulation of these pathways. | As the genetic tools get more advanced, other organisms can be considered. Next to synthetic chassis organisms, this might also include native methylotrophs such as ''B. methanolicus''. But before glycogen accumulation can be engineered in these organisms, our ''glgP'' knockout strain and the methanol assimilation BioBricks will be valuable tools to further understand the regulation of these pathways. | ||
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| + | With our small-scale bioreactor technology, further metabolic engineering research towards a methanol-based bioeconomy will be accelerated. | ||
=Possible future in 50 years= | =Possible future in 50 years= | ||
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With the left over arable land and improved agriculture, we can guarantee food security without an extensive use of fertilizers. The decreased use of fertilizers reduced the pollution of rivers and oceans which led to a more stable environment. | With the left over arable land and improved agriculture, we can guarantee food security without an extensive use of fertilizers. The decreased use of fertilizers reduced the pollution of rivers and oceans which led to a more stable environment. | ||
| − | + | {{Team:Aachen/Figure|size=large|Aachen_vision_good_future_v1.png|title=A desirable future}} | |
{{Team:Aachen/Footer|color=red}} | {{Team:Aachen/Footer|color=red}} | ||
Latest revision as of 03:28, 19 September 2015