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<li>We demonstrated small-scale, parallel automation and optimisation of E. coli transformation protocols using the OpenTrons OT-2 robot that can now be used to optimise transformation of our Pseudomonas endophyte.</li> | <li>We demonstrated small-scale, parallel automation and optimisation of E. coli transformation protocols using the OpenTrons OT-2 robot that can now be used to optimise transformation of our Pseudomonas endophyte.</li> | ||
<li>We have demonstrated the value of a chemically-defined media to chassis optimisation and parts characterisation.</li> | <li>We have demonstrated the value of a chemically-defined media to chassis optimisation and parts characterisation.</li> | ||
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+ | <li>We have demonstrated a functional, low-cost programmable plant growth chamber capable of housing >1300 seedlings that permits high-throughput plant experiments and physically simulates some of the growth conditions proposed by Alternative Roots.</li> | ||
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+ | <li>All of this work was guided by our dialogue with those working in and around the agricultural and food production sectors We designed an underground production facility that is consistent with local legislation and iGEM safety considerations relating the use and release of genetically modified organisms and microbes.</li> | ||
+ | <li>These plans provided an opportunity to engage with the public on issues such as local food production and different aspects of synthetic biology.</li> | ||
+ | <li>Finally, regardless of the progress Alternative Roots makes as a synthetic biology project within the iGEM community, our project has started a conversation amongst local food producers and social movements about the potential to develop Newcastle’s largely disused Victoria Tunnels network to grow fresh, local produce for the city.</li> | ||
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Revision as of 10:42, 12 October 2018
Alternative Roots
Demonstrate
Alternative Roots
What worked - and didn’t work - in 2018 for Alternative Roots
Overview
Alternative roots is a mulit-component project proposing that plant endophytes - microbes that live harmlessly within plant tissues - can be engineered to enhance beneficial plant : microbial interactions. This may be achieved, for example, by engineering plant endophytes to synthesise chemoattractants of free-living, nitrogen fixing bacteria. We examined both the feasibility of the biology and considered how this technology might be viably deployed in our local community. Here we highlight some of the conclusions from our work:
Chassis Development
- We have demonstrated colonisation of plant tissues by our Pseudomonas sp.
- We have demonstrated that this species is genetically transformable.
- We have demonstrated that transformed our Pseudomonas sp. can colonise root tissues.
- We have identified an origin or replication and two selectable antibiotic markers (gentamicin and streptomycin) that can be used with our Pseudomonas sp.
Microbial Community Engineering
- We have characterised the responses of three free-living, nitrogen fixing bacteria to the chemoattractant naringenin and demonstrated that two are attracted to this flavonoid.
- In tandem with our experimental characterisation we have built an Agent Based Model that indicates that naringenin biosynthesis by a plant endophyte would result in the formation of a biofilm by N2-fixing bacteria.
Metabolic Engineering
- We have assembled a four gene operon coding for the naringenin biosynthetic pathway, but were unable to test this experimentally…
- …however, we have built a kinetic model describing pathway flux that demonstrates that a better design for balancing flux can be achieved by creating two, two-gene operons instead of a single, four-gene operon.
Measurements and standards
- Any chassis development requires good characterisation and measurement. We examined how this works within the Interlab study and created an Internal Standard for each test device. Our new devices worked, and demonstrated that even simple systems such as the Interlab test devices are highly context-dependent.
- We demonstrated small-scale, parallel automation and optimisation of E. coli transformation protocols using the OpenTrons OT-2 robot that can now be used to optimise transformation of our Pseudomonas endophyte.
- We have demonstrated the value of a chemically-defined media to chassis optimisation and parts characterisation.
Hardware
- We have demonstrated a functional, low-cost programmable plant growth chamber capable of housing >1300 seedlings that permits high-throughput plant experiments and physically simulates some of the growth conditions proposed by Alternative Roots.
Integrated Human Practices
- All of this work was guided by our dialogue with those working in and around the agricultural and food production sectors We designed an underground production facility that is consistent with local legislation and iGEM safety considerations relating the use and release of genetically modified organisms and microbes.
- These plans provided an opportunity to engage with the public on issues such as local food production and different aspects of synthetic biology.
- Finally, regardless of the progress Alternative Roots makes as a synthetic biology project within the iGEM community, our project has started a conversation amongst local food producers and social movements about the potential to develop Newcastle’s largely disused Victoria Tunnels network to grow fresh, local produce for the city.