Team:Ehime-Japan/HumanPractice-E.create

From 2012.igem.org

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On the other day, a few members of our team visited a high school to do educational activity and play E.create together. We taught about 50 students who are learning biology. Thank to everyone!
On the other day, a few members of our team visited a high school to do educational activity and play E.create together. We taught about 50 students who are learning biology. Thank to everyone!
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Q2. How do you feel toward gene recombination?
Q2. How do you feel toward gene recombination?
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Q3. Do you think gene recombination is friendly?
 
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2. After our lecture and playing E.create
2. After our lecture and playing E.create
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Q4. Did you change your idea to Q1?
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Q3. Did you change your idea to Q1?
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Q5. Did you change your idea to Q2?
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Q6. Did you change your idea to Q3?
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Q4. Did you change your idea to Q2?
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Q7. Did you change your interest in gene recombination by comparison with before the lecture and playing E.create?
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Q5. Did you change your interest in gene recombination by comparison with before the lecture and playing E.create?
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Revision as of 15:15, 26 September 2012

Ehime-Japan iGEM Team: Welcome




・E.create!


Our motivation

We made a BioBrick card game “E.create” to introduce to a number of people the enjoyability of synthetic biology. Nobody in our team had learned synthetic biology until we started our iGEM project. We thought from our experiences that the construction of the plasmids is the most interesting process. We hope that everybody who is interested in life sciences and genetic engineering can enjoy learning synthetic biology by playing with E.create!


E.create is a puzzle game. The kit contains cards with illustrations on them. Each card corresponds to one of the gene parts including:

・Promoter,
・RBS (Ribosome Binding Site),
・Protein coding regions,
・Terminator,
・Ori (Origin), and
・Drug registance genes (KmR, CmR and AmpR).



☆ How to play

Players will challenge to constract one or more plasmid(s) that should be required to transform ''E.coli'' to give properties presented by the puzzle master. An example is shown below. Let’s make it!


Ex. This ''E.coli'' can express GFP constitutively and has Km resistance.

E.colevel.0 Doya

・He always makes GFP.
・He has Km resistance.



You can choose the proper cards from the bottom and try to build the plasmid expressing GFP in E.coli!
※Turn the cards you do not use face-down and put a card of resistances on the center.



Finish !

One of the answers is this !


Did you enjoy it? If you play more, please click here.

E.colevel.1 Ao

E.colevel.2 Hana chan

E.colevel.3 Postman X

In addition, we did presentation about sythetic biology for high school students and enjoyed playing them with E.create on the Open Campus days of University (August 7 and 8) !



On the other day, a few members of our team visited a high school to do educational activity and play E.create together. We taught about 50 students who are learning biology. Thank to everyone!






Evaluation of our activities above.

We asked the participants in our educational activities the following questions.


Questions about gene recombination__

1.Before our lecture and playing E.create
Q1. Do you know gene recombination?
Q2. How do you feel toward gene recombination?



2. After our lecture and playing E.create
Q3. Did you change your idea to Q1?
Q4. Did you change your idea to Q2?
Q5. Did you change your interest in gene recombination by comparison with before the lecture and playing E.create?



Answers to the questions Answers to Q1 and Q4, Q2 and Q5, Q3 and Q6, and Q7 are shown below.