Difference between revisions of "Team:USP-Brazil/Achievements"

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             <h3>Integrated Human Practices</h3>
 
             <h3>Integrated Human Practices</h3>
             <p>To go along with our lab achievements, we also achieved many important out-of-lab goals. <a href="https://2018.igem.org/Team:USP-Brazil/Human_Practices">Mentoring the high school seniors,</a> Dani, Laura and Elo, was truly a wonderful experience for all of us. We have certainly learned as much about mentoring, teaching, and scientific communication as they have learned about molecular and synthetic biology.
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             <p>To go along with our lab achievements, we also achieved many important out-of-lab goals. <a href="https://2018.igem.org/Team:USP-Brazil/Human_Practices">Mentoring the high school seniors,</a> Dani, La and Elo, was truly a wonderful experience for all of us. We have certainly learned as much about mentoring, teaching, and scientific communication as they have learned about molecular and synthetic biology.
 
             </p>
 
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Revision as of 02:12, 14 October 2018

Wiki - iGEM Brazil

Achievements

During the course of this year’s project, our team has achieved many important milestones, which we further elaborate on throughout our Wiki. This page serves simply as a way to center and summarize our achievements.

Wetlab

Our experimental design began as bold ambition: to fully characterize the Receiver-Promoter cross-talk between six Quorum Sensing systems, through a 2-plasmid system with a range of 12 total plasmids. Cloning problems and DNA synthesis problems made us fall just short of the 12 plasmid mark, but we nevertheless generated significant amounts of data and made solid advances in the characterization of the used parts. Our wetlab achievements were as follow:

*The Las Synthase-Receiver plasmid was cloned, but did not activate any Activity Reporter, including the Las Reporter. We sequenced the insert and checked that everything looked alright, and we then proceeded to test it with direct induction by HSL. The HSL induction also did not activate the Reporter, so we infer that the fault lies in the LasR Receptor, and so we have added this data to the LasR Registry page.

Measurement & Improvement

With so much of our project revolving around fine-tuned promoter induction, measurement was a top priority for us from the get-go. And so, we are very proud to have designed, cloned, and validated our YFP-CFP Reporter, improving the use of the pre-existing YFP reporter. We hope that our advances may become a handy and reliable reporter tool for future synthetic biology projects.

Modeling

Integrated Human Practices

To go along with our lab achievements, we also achieved many important out-of-lab goals. Mentoring the high school seniors, Dani, La and Elo, was truly a wonderful experience for all of us. We have certainly learned as much about mentoring, teaching, and scientific communication as they have learned about molecular and synthetic biology.

On top of that, bringing the topics of synthetic biology and quorum sensing both to specialists and to the general public allowed us to receive valuable feedback on our project, which was determinant for its final outcome.

Interlab

As we further elaborated on our 40 new BioBricks, both Basic and Composite parts, and have acquired substantial characterization data for them.

Along with our new parts, many Quorum Sensing parts and devices already existed on the Registry, and so we decided to make use of all of our previous research to gather them on one handy place. We have therefore created the Quorum Sensing Collection, gathering the parts we found relevant, in hopes that it can be useful for future teams.