Team:KU Leuven/Human Outreach/Education

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    <a href="https://2013.igem.org/Team:KU_Leuven/Human_Practices/HannahArendt" title="Team:KU_leuven">
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    <h3>Hannah Arendt</h3>
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    <p>Public judgement & common sense</p>
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    <a href="https://2013.igem.org/Team:KU_Leuven/Human_Practices/Ethics/Debate">
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    <h3>Debate</h3>
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    <p>The borders of synthetic biology</p>
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    <h3>The End User</h3>
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    <p>Our idea is being supported!</p>
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    <a href="https://2013.igem.org/Team:KU_Leuven/Human_Outreach/Education" title="Team:KU_leuven">
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    <h3>Education</h3>
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    <p>You are here!</p>
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    <h3>Symposium</h3> </a>
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     <p align="justify"><b>We reached out to high school students by organising educational workshops.<br/> The aim is to spark their interest in science and to tell them more about our project and the applications of synthetic biology. We have already visited several high schools in Belgium, see below.</b></p>
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Our goal was to get students in high school interested in science, synthetic biology and to tell them more about our project and the applications of synthetic biology. We went to and are going to several high schools in Flanders. <br/>
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Schools visited so far: <br/>
17th of September: Sint-Dimpnacollege, GEEL <br/>
17th of September: Sint-Dimpnacollege, GEEL <br/>
23th of September: Sint-Lodewijkscollege, BRUGGE <br/>
23th of September: Sint-Lodewijkscollege, BRUGGE <br/>
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1st of October: European School of Mol, MOL <br/>
15th of October: Campus Sint-Aloysois, ZEPPEREN <br/>
15th of October: Campus Sint-Aloysois, ZEPPEREN <br/>
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17th of October: Sint-Jan Berchmanscollege, DIEST <br/>
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22th of October: Sint-Ritacollege, KONTICH <br/>
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Mid of October: Sint-Ritacollege, KONTICH
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24th of October: Sint-Jan Berchmanscollege, DIEST
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   <h3>Presentation</h3>
   <h3>Presentation</h3>
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Our workshop consists of a presentation, some exercises and an experiment at the end. We gave a presentation and a text for the students. You can find the presentation (in Dutch and English) and our text (in Dutch). <br/>
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The workshop we prepared consists of a presentation, some exercises with 'BioBricks' we designed and an experiment at the end. You can find the presentation in <a href="https://static.igem.org/mediawiki/2013/8/88/Presentatie_iGEM%40School.pdf">Dutch</a> and in <a href="https://static.igem.org/mediawiki/2013/7/71/Presentation_iGEM%40School.pdf"> English</a> and our <a href="https://static.igem.org/mediawiki/2013/5/59/Tekst_iGEM%40School.pdf">text</a> in Dutch.  
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First of all, we give a short introduction about DNA and biochemistry. In general the students have already had an introduction to DNA in class, but it was still very new to them. Then, we talk about bacteria and which bacteria we use in the lab. We made a 3D-bacterial model. This model gives the students an idea what a bacterium looks like. The model was printed by Fablab and consists of 3 layers. Inside, there’s a representation of cytoplasm, plasmid and bacterial genome.<br/>
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Afterwards, we explain what synthetic biology and its applications are. We give the example of modified yeast that can produce artemisinin to treat malaria. After the introduction, we continue explaining our iGEM-project 2013. We explain the mechanisms and properties of our bacteria. We end the presentation with the ethical and social implications of synthetic biology in general and our project.  
+
We gave a short introduction about DNA and its biochemistry. We designed a <b>3D-printed bacterial model</b>, to introduce the students to bacteria and which ones we use in the lab. This model was printed by Fablab and consists of 3 layers. Inside, there is a representation of the cytoplasm, the plasmid and the bacterial genome.<br/>
 +
After this introduction we came to the main part of our workshop: explaining what synthetic biology and its applications are. As an example, we discussed the development of modified yeast that can produce artemisinin to treat malaria. Subsequently, we presented our project (<i>E. coligy: Plants with BanAphids</i>) by illustrating the mechanisms and properties of our BanAphids. We found it important to discuss with the next-generation scientists the ethical and social implications of synthetic biology in general, as well as in our project.  
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     <img src="https://static.igem.org/mediawiki/2013/5/57/3D_bacterial_model.JPG" alt="3D bacterial model"/>
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   <h3>Exercises</h3>
   <h3>Exercises</h3>
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After the presentation, we gave the students two exercises about building new systems with pieces of a puzzle. We made promoters, genes, regulators and proteins out of Plexiglas in different colours. <br/>
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After the presentation, we gave the students <b> two exercises about building new systems with plastic puzzle pieces</b>. We made promotors, genes, regulators and proteins out of plexiglas in different colours. <br/>
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First they had to make a system of a biosensor (iGEM-project of Groningen 2009). The biosensor can detect arsenic and the bacteria can absorb this arsenic out of the water. It’s a system to clean the water. Therefore you need a stimulator (arsenic) of an inducible promoter and a gene. The gene stands for a protein that helps with the production of hydrogen. <br/>  
+
First they had to make a biosensor system developed by the iGEM team of Groningen in 2009. The biosensor can detect arsenic and the bacteria can absorb this arsenic out of the water. To do this, they used an arsenic inducible promotor, followed by a gene encoding for a protein that helps with the production of hydrogen. <br/>  
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In the second exercise, we offer our ED Frosti (iGEM project of KU Leuven 2011). ED Frosti can defrost ice and freeze water. We made a simplified system of ED Frosti, with two stimulators, three promoters, four genes and a feedback-loop.
+
In the second exercise, we used our ED Frosti model circuit (iGEM project of KU Leuven 2011). ED Frosti can defrost ice and freeze water. We made a simplified system of ED Frosti, consisting of two activators, three promotors, four genes and a feedback-loop.
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     <img src="https://static.igem.org/mediawiki/2013/1/10/Plexiglas_models.JPG" alt="Plexiglas models" width="250"/>
     <img src="https://static.igem.org/mediawiki/2013/1/10/Plexiglas_models.JPG" alt="Plexiglas models" width="250"/>
     <img src="https://static.igem.org/mediawiki/2013/8/84/Plexiglas_system.JPG" alt="Plexiglas system" width="250"/>
     <img src="https://static.igem.org/mediawiki/2013/8/84/Plexiglas_system.JPG" alt="Plexiglas system" width="250"/>
     <img src="https://static.igem.org/mediawiki/2013/b/bd/Excerise.JPG" alt="Exercise" width="250"/>
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     <h3>Experiment</h3>
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The experiment proves that genes are inducible. Bacteria can adapt to different circumstances. If there’s lactose in the environment, E. coli will produces b-galactosidase to hydrolyse the lactose. When there’s no lactose, b-galactosidase won’t be produced. We didn’t use lactose, but we used ONPG. ONPG is a substrate of b-galactosidase and will turn yellow after hydrolysis. The yellow colour is proof of the presence of b-galactosidase. We couldn’t use E. coli in the high-school because of the safety regulations. We explained the principle of inducible genes and showed the enzymatic reaction with b-galactosidase and ONPG. The students can do this experiment themselves and for the first time, they work with micropipettes.  
+
The experiment proves that gene expression can be inducible so bacteria can adapt to different circumstances. If there’s lactose in the environment, <i>E. coli</i> will produce β-galactosidase to hydrolyse the lactose. When there’s no lactose, β-galactosidase won’t be produced. We didn’t use lactose, but we used ONPG. ONPG is a substrate of β-galactosidase and will turn yellow after hydrolysis. The yellow colour is proof of the presence of β-galactosidase. We couldn’t use <i>E. coli</i> in the high-school because of the safety regulations, but we explained the principle of inducible genes and showed the enzymatic reaction with β-galactosidase and ONPG. The students did this experiment themselves and they worked with micropipettes for the first time.  
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On the 17th of September, Flore and Sabine went to the Sint-Dimpnacollege. It was the first time we gave the workshops and everything went well. We gave the workshop three times to students in the sixth year of science-mathematics and latin-science. The students were enthusiastic and very interested. We got <a href="http://www.sdc.kogeka.be/nieuws/510/voorstelling-igem-project-door-studenten-ku-leuven">positive feedback</a> from the teachers and students.<br/>
On the 17th of September, Flore and Sabine went to the Sint-Dimpnacollege. It was the first time we gave the workshops and everything went well. We gave the workshop three times to students in the sixth year of science-mathematics and latin-science. The students were enthusiastic and very interested. We got <a href="http://www.sdc.kogeka.be/nieuws/510/voorstelling-igem-project-door-studenten-ku-leuven">positive feedback</a> from the teachers and students.<br/>
-
On the 23th of September, Lukas and Bert went to the Sint-Lodewijkscollege. They were also very enthusiastic and interested in synthetic biology and our project. We got a lot of good responses to our workshop. <br/>
+
On the 23th of September, Lukas and Bert went to the Sint-Lodewijkscollege. These students were also very enthusiastic and interested in synthetic biology and our project. We got a lot of good responses to our workshop. <br/>
-
We also went to a European school. Aurelie and Lukas gave the workshop to a selection of international students. The students were from the Dutch, English and French section. Here we gave the presentation in English and they were also very enthusiastic.  
+
We also went to a European school. Aurelie and Lukas gave the workshop to a selection of international students. The students were from the Dutch, English and French section. Here we gave the presentation in English. The teachers here were so impressed with our Plexiglas biobrick system that they asked if they could buy it from us (maybe entrepeneurial iGEM competition next year?)!
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Latest revision as of 03:02, 29 October 2013

iGem

Secret garden

Congratulations! You've found our secret garden! Follow the instructions below and win a great prize at the World jamboree!


  • A video shows that two of our team members are having great fun at our favourite company. Do you know the name of the second member that appears in the video?
  • For one of our models we had to do very extensive computations. To prevent our own computers from overheating and to keep the temperature in our iGEM room at a normal level, we used a supercomputer. Which centre maintains this supercomputer? (Dutch abbreviation)
  • We organised a symposium with a debate, some seminars and 2 iGEM project presentations. An iGEM team came all the way from the Netherlands to present their project. What is the name of their city?

Now put all of these in this URL:https://2013.igem.org/Team:KU_Leuven/(firstname)(abbreviation)(city), (loose the brackets and put everything in lowercase) and follow the very last instruction to get your special jamboree prize!

tree ladybugcartoon

Hannah Arendt

Public judgement & common sense

Debate

The borders of synthetic biology

The End User

Our idea is being supported!

Education

You are here!

Symposium

Lectures for the general public

Press

We were in the news!

We reached out to high school students by organising educational workshops.
The aim is to spark their interest in science and to tell them more about our project and the applications of synthetic biology. We have already visited several high schools in Belgium, see below.

Schools visited so far:
17th of September: Sint-Dimpnacollege, GEEL
23th of September: Sint-Lodewijkscollege, BRUGGE
1st of October: European School of Mol, MOL
15th of October: Campus Sint-Aloysois, ZEPPEREN
22th of October: Sint-Ritacollege, KONTICH
24th of October: Sint-Jan Berchmanscollege, DIEST

Presentation

The workshop we prepared consists of a presentation, some exercises with 'BioBricks' we designed and an experiment at the end. You can find the presentation in Dutch and in English and our text in Dutch.
We gave a short introduction about DNA and its biochemistry. We designed a 3D-printed bacterial model, to introduce the students to bacteria and which ones we use in the lab. This model was printed by Fablab and consists of 3 layers. Inside, there is a representation of the cytoplasm, the plasmid and the bacterial genome.
After this introduction we came to the main part of our workshop: explaining what synthetic biology and its applications are. As an example, we discussed the development of modified yeast that can produce artemisinin to treat malaria. Subsequently, we presented our project (E. coligy: Plants with BanAphids) by illustrating the mechanisms and properties of our BanAphids. We found it important to discuss with the next-generation scientists the ethical and social implications of synthetic biology in general, as well as in our project.


3D bacterial model

Exercises

After the presentation, we gave the students two exercises about building new systems with plastic puzzle pieces. We made promotors, genes, regulators and proteins out of plexiglas in different colours.
First they had to make a biosensor system developed by the iGEM team of Groningen in 2009. The biosensor can detect arsenic and the bacteria can absorb this arsenic out of the water. To do this, they used an arsenic inducible promotor, followed by a gene encoding for a protein that helps with the production of hydrogen.
In the second exercise, we used our ED Frosti model circuit (iGEM project of KU Leuven 2011). ED Frosti can defrost ice and freeze water. We made a simplified system of ED Frosti, consisting of two activators, three promotors, four genes and a feedback-loop.


Plexiglas models Plexiglas system Exercise
Experiment Experiment

Experiment

The experiment proves that gene expression can be inducible so bacteria can adapt to different circumstances. If there’s lactose in the environment, E. coli will produce β-galactosidase to hydrolyse the lactose. When there’s no lactose, β-galactosidase won’t be produced. We didn’t use lactose, but we used ONPG. ONPG is a substrate of β-galactosidase and will turn yellow after hydrolysis. The yellow colour is proof of the presence of β-galactosidase. We couldn’t use E. coli in the high-school because of the safety regulations, but we explained the principle of inducible genes and showed the enzymatic reaction with β-galactosidase and ONPG. The students did this experiment themselves and they worked with micropipettes for the first time.

Feedback

Feedback from the schools

On the 17th of September, Flore and Sabine went to the Sint-Dimpnacollege. It was the first time we gave the workshops and everything went well. We gave the workshop three times to students in the sixth year of science-mathematics and latin-science. The students were enthusiastic and very interested. We got positive feedback from the teachers and students.
On the 23th of September, Lukas and Bert went to the Sint-Lodewijkscollege. These students were also very enthusiastic and interested in synthetic biology and our project. We got a lot of good responses to our workshop.
We also went to a European school. Aurelie and Lukas gave the workshop to a selection of international students. The students were from the Dutch, English and French section. Here we gave the presentation in English. The teachers here were so impressed with our Plexiglas biobrick system that they asked if they could buy it from us (maybe entrepeneurial iGEM competition next year?)!

Feedback

Picture gallery