Team:Kyoto

From 2012.igem.org

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==[[File:Kyoto_FlowerFairyEcoli.png|link=]]==
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How wonderful would it be, if you could see flowers in full glory throughout the year? If flowers were to bloom at will, you could eat tasty fruits and see beautiful flowers any time you want. This is what we have been looking for: the technology to make flowers bloom. There is a plant hormone that enables us to realize this dream. The plant hormone, Florigen, controls and triggers flowering in plants. This year, we aimed to create [[Team:Kyoto/Project|'''Flower Fairy E.coli''']]. They will produce Florigen and transfer it into plant cells! With our Flower Fairy E. coli, you can make flowers bloom anytime!
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=Our Project=
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<p>[[File:no image.png|right|100px|caption]]How wonderful is it if you can see flowers in full glory in any season? Flowers are beautiful and fruits are delicious. If flowers bloom whenever you like, you could eat tasty fruits and see beautiful flowers in any time. It is what we humans have been looking for that the technology to make flowers bloom. And this is the technology that is going to be implemented by [[Team:Kyoto/Team|'''iGEM Kyoto''']].</p>
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<p>There is a plant hormone that was not discovered for about 70 years since existence was foretold in 1936. In 2007, it is confirmed that FLOWERING LOCUS T discovered by Mr.Araki (Kyoto University) is the plant hormone, Florigen.</p>
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<p>Florigen controls and triggers flowering in plants. Florigen is made in leaves and then it is translocated to shoot apex of a plant. Florigen activates flowering determining gene in shoot apex.</p>
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<p>We will create [[Team:Kyoto/Project|'''Flower Fairy E.coli''']]. This will make Florigen and introduce it into plants! This enables us to make flowers bloom on demand!</p>
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<p>When we wish to achieve our goal, there are several hurdles. First, needless to say, we must make Escherichia.coli express Florigen that functions correctly. Second, we must make secretion system without cell death because Flower Fairy E.coli have to secrete florigen constantly when they are injected into plant and switched on. Third, Florigen which is secreted must be introduced into plant cells without damage.</p>
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<p>We iGEM Kyoto team has 3 groups. First, Florigen, this group aims to make E.coli express and introduce Florigen into plant cells. Second, Secretion group, this group aims to make secretion pathway through membranes of E.coli without cell death. Third, Golden Gate group, this group aims to verify Golden Gate Assembly and use the assembly to study what will happen if we construct many promoters into same parts.</p>
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==Future Works==
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==[[File:Kyoto_GoldenGateAssembly.png|link=]]==
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We noticed only flowering and florigen in this time but there are many many other plant hormones. We made translocation pathway from E.coli into plant cells, so we will be able to introduce plant hormones into plant cells if E.coli can make them. It means we can control plant growth in any stage through genetically engineered E.coli. In the future that is not so far, we will be able to meddle in plants' growth――germinating, elongation, flowering, and fructification.
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Have you ever hoped for a faster method for experiments? We guess you have. In order to achieve a successful study, we have to experiment day by day. This is the case for iGEM, too. iGEMers tend to experiment on ''Escherichia.coli'', and almost all experiments take a lot of time. Unless our guess is wrong, all scholars and iGEMers undergo hardships that make it seemly impossible to complete their work by a deadline. [[Team:Kyoto/Project|'''Golden Gate assembly''']] made up by Carola Engler, Romy Kandzia, Sylvestre Marillonnet enables us to construct genes faster than any other assembly methods.  
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[[File:Kyoto_GoldenGateAssembly.jpg | link=https://2012.igem.org/Team:Kyoto/Project]]
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[[File:Kyoto_GoldenPrimerDesigner.jpg | link=https://2012.igem.org/Team:Kyoto/Project]]
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<br clear="both" />
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=[[File:Kyoto_HumanPractice.png|link=]]=
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This year, we implemented '''nine projects''' on [[Team:Kyoto/Consideration|"'''human practice'''"]]. <br>
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Especially, we gave high priority to two programs, "Making iPhone app" and "Educational program" <br>
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We created an iPhone app named "iColi" which is a way to bring Japanese closer to synthetic biology.
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In addition, we carried out a lecture on synthetic biology and biochemistry at many places, Hibiya high school; Horikawa high school, Kyoto University, and so on.
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Our activities this year actually helped many people know about synthetic biology and gene recombination.
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<font size="5">Application</font><br>
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[[File:Kyoto_iColi0.png|right|300px]]
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One of the main projects is to create an iPhone app to help many Japanese know about synthetic biology.
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We set the project because some Japanese people seemed to have a bad impression of gene recombination, and we wanted to modify this bias.
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In addition, few Japanese people know what gene recombination is all about, so we would like to show them how wonderful recombination is.
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<font size="5">Education</font><br>
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----
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The second project is to introduce the synthetic biology to high school students, as we would like many high school students to participate in iGEM.
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This summer, we carried out lectures on gene recombination and biochemistry in "Seiryo festival" at Hibiya high school, furthermore we held a poster session in open campus of Kyoto University.
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Due to the curriculum in our country, it is rather difficult for high school students to take part in iGEM undergraduate category, so we told them about the HS division and support students who are interested in it. We hope that many Japanese teams take part in the next iGEM HS division.<br>
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<font size="5">Other activities</font><br>
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----
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*Kyoto University Academic day<br>
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*November Festival and Open Campus at Kyoto University<br>
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*Science agora<br>
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*Tie-up with Super Science High school<br>
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*Cooperation<br>
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*Symposium on liberal arts and general education<br>
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<br style="clear: both;" />
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=[[File:Kyoto_Criteria.png|link=]]=
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You can see it at [https://igem.org/2012_Judging_Form?id=797 here].
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=[[File:Kyoto_Sponsors.png]]=
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<div style="background-color: #ffffff; border: 1px solid #888888; padding: 10px;">
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[[File:Leave_a_Nest.jpg | link=http://www.cactus.co.jp/aboutus/partners.html|110px|right]]
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[[File:KUlogo.png | link=http://www.kyoto-u.ac.jp/|250px]]
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[[File:CosmoBio.png | link=http://www.cosmobio.co.jp/|250p]]
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[[File:IDTLogo2010.png | link=http://www.idtdna.com/site|220px]]
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[[File:MBLlogo.gif | link=http://www.mbl.co.jp/e/index.html]]
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{{Kyoto/footer}}
{{Kyoto/footer}}

Latest revision as of 16:34, 26 October 2012

KyotoHeader.png

  • Home
  • Project
  • Method And Material
  • Notebook
  • Consideration
  • Team
  • SiteMap

Contents

Kyoto OurProject.png

Kyoto FlowerFairyEcoli.png

How wonderful would it be, if you could see flowers in full glory throughout the year? If flowers were to bloom at will, you could eat tasty fruits and see beautiful flowers any time you want. This is what we have been looking for: the technology to make flowers bloom. There is a plant hormone that enables us to realize this dream. The plant hormone, Florigen, controls and triggers flowering in plants. This year, we aimed to create Flower Fairy E.coli. They will produce Florigen and transfer it into plant cells! With our Flower Fairy E. coli, you can make flowers bloom anytime!

Kyoto GoldenGateAssembly.png

Have you ever hoped for a faster method for experiments? We guess you have. In order to achieve a successful study, we have to experiment day by day. This is the case for iGEM, too. iGEMers tend to experiment on Escherichia.coli, and almost all experiments take a lot of time. Unless our guess is wrong, all scholars and iGEMers undergo hardships that make it seemly impossible to complete their work by a deadline. Golden Gate assembly made up by Carola Engler, Romy Kandzia, Sylvestre Marillonnet enables us to construct genes faster than any other assembly methods.

Kyoto GoldenGateAssembly.jpg Kyoto GoldenPrimerDesigner.jpg

Kyoto HumanPractice.png

This year, we implemented nine projects on "human practice".

Especially, we gave high priority to two programs, "Making iPhone app" and "Educational program"
We created an iPhone app named "iColi" which is a way to bring Japanese closer to synthetic biology. In addition, we carried out a lecture on synthetic biology and biochemistry at many places, Hibiya high school; Horikawa high school, Kyoto University, and so on. Our activities this year actually helped many people know about synthetic biology and gene recombination.

Application


Kyoto iColi0.png

One of the main projects is to create an iPhone app to help many Japanese know about synthetic biology.

We set the project because some Japanese people seemed to have a bad impression of gene recombination, and we wanted to modify this bias.

In addition, few Japanese people know what gene recombination is all about, so we would like to show them how wonderful recombination is.


Education


The second project is to introduce the synthetic biology to high school students, as we would like many high school students to participate in iGEM. This summer, we carried out lectures on gene recombination and biochemistry in "Seiryo festival" at Hibiya high school, furthermore we held a poster session in open campus of Kyoto University.

Due to the curriculum in our country, it is rather difficult for high school students to take part in iGEM undergraduate category, so we told them about the HS division and support students who are interested in it. We hope that many Japanese teams take part in the next iGEM HS division.

Other activities


  • Kyoto University Academic day
  • November Festival and Open Campus at Kyoto University
  • Science agora
  • Tie-up with Super Science High school
  • Cooperation
  • Symposium on liberal arts and general education


Kyoto Criteria.png

You can see it at here.

Kyoto Sponsors.png