Team:HokkaidoU Japan/Shuffling Kit/Examples

From 2013.igem.org

(Difference between revisions)
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<p>For a demonstration we decided to optimize the expression of Kanamycin resistance. Changing the concentration of Kanamycin in agar plate, it is estimated that different promoter will be chosen by our POK.(fig1)</p>
<p>For a demonstration we decided to optimize the expression of Kanamycin resistance. Changing the concentration of Kanamycin in agar plate, it is estimated that different promoter will be chosen by our POK.(fig1)</p>
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<div class="fig fig400">
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<p>If the concentration of Kanamycin was high, the colony with strong promoter will survive. Therefore, only one or two colors of colonies would appear.
 +
  If the concentration of Kanamycin was low, colonies with weak promoters will be able to survive. This way many colors of colonies would appear. (fig.2).
 +
</p>
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<div class="fig fig400 para">
   <img src="https://static.igem.org/mediawiki/2013/8/8e/HokkaidoU_2013_Demo_fig1.png">
   <img src="https://static.igem.org/mediawiki/2013/8/8e/HokkaidoU_2013_Demo_fig1.png">
   <div>fig.1</div>
   <div>fig.1</div>
</div>
</div>
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<p>If the concentration of Kanamycin was high, the colony with strong promoter will survive. Therefore, only one or two colors of colonies would appear.
+
<div class="fig fig400 para">
-
  If the concentration of Kanamycin was low, colonies with weak promoters will be able to survive. This way many colors of colonies would appear. (fig.2).
+
-
</p>
+
-
<div class="fig fig400">
+
   <img src="https://static.igem.org/mediawiki/2013/9/94/HokkaidoU_2013_Demo_fig2.png">
   <img src="https://static.igem.org/mediawiki/2013/9/94/HokkaidoU_2013_Demo_fig2.png">
   <div>fig.2</div>
   <div>fig.2</div>
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<h2>Method</h2>
<h2>Method</h2>
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<p>Optimum concentration of Kanamycin: in LB is 50 mg/ml
 
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  We prepared 4 different concentration plates.  (fig.3)
 
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</p>
 
<div class="fig fig400">
<div class="fig fig400">
   <img src="https://static.igem.org/mediawiki/2013/1/1a/HokkaidoU_2013_Demo_fig3.png">
   <img src="https://static.igem.org/mediawiki/2013/1/1a/HokkaidoU_2013_Demo_fig3.png">
   <div>fig.3</div>
   <div>fig.3</div>
</div>
</div>
 +
<p>Optimum concentration of Kanamycin: in LB is 50 mg/ml
 +
  We prepared 4 different concentration plates.  (fig.3)
 +
</p>
<ul>
<ul>
   <li>Plate A: Kanamycin 125 mg per plate</li>
   <li>Plate A: Kanamycin 125 mg per plate</li>

Revision as of 01:55, 28 September 2013

Maestro E.coli

Optimization Kit

Demonstrations for Usecase Example

We will show some interesting demonstrations of our kits, POK and ROK!

POK

What will happen if you optimize a Kanamycin resistance?

For a demonstration we decided to optimize the expression of Kanamycin resistance. Changing the concentration of Kanamycin in agar plate, it is estimated that different promoter will be chosen by our POK.(fig1)

If the concentration of Kanamycin was high, the colony with strong promoter will survive. Therefore, only one or two colors of colonies would appear. If the concentration of Kanamycin was low, colonies with weak promoters will be able to survive. This way many colors of colonies would appear. (fig.2).

fig.1
fig.2

Method

fig.3

Optimum concentration of Kanamycin: in LB is 50 mg/ml We prepared 4 different concentration plates. (fig.3)

  • Plate A: Kanamycin 125 mg per plate
  • Plate B: Kanamycin 250 mg per plate
  • Plate C: Kanamycin 500 mg per plate (optimum concentration)
  • Plate D: Kanamycin 1000 mg per plate

Gene Vector: pSB1C3

We cloned Kanamycin resistant gene from pSB1K3, by using BsaI adding primer. Used the POK kit (K1084501, K1084502, K1084503, K1084504, K1084505 ).

Culture: 37 C, for 24h