Team:HokkaidoU Japan/Projects/Length/Method

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<h1> How to synthesize anti-sense constructs</h1>
<h1> How to synthesize anti-sense constructs</h1>
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Anti-sense fragments were synthesized based on BioBrick by PCR. Forward primers are common (XhoI-Ptet (-10)). Each reverse primers are different (as90 NcoI, as120 NcoI) (Fig. 1). As90 is the anti-sense that covers 90 bp of mRNA, and as 120 is the anti-sense that covers 120 bp of mRNA (complement RBS and a part of mRFP sequence.) Because of these, we got various length anti-senses. The sides of antisense fragment have restriction enzymes XhoI, NcoI sites.
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Anti-sense fragments were synthesized based on BioBrick by PCR. Forward primers are common (XhoI-Ptet (-10)). Each reverse primers are different (as90 NcoI, as120 NcoI) (Fig. 1). As90 is the anti-sense that covers 90 bp of mRNA, and as 120 is the anti-sense that covers 120 bp of mRNA (complement RBS and a part of mRFP sequence.) Because of these, we got various length anti-senses. The sides of antisense fragment have restriction enzymes XhoI, NcoI sites. </p>
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After we finished synthesizing anti-sense fragments, we cut them and H-stem vector (our anti-sense expression vector) by XhoI and NcoI. Finally, we ligated them and measured their repression efficiencies.</p>  
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<img src="https://static.igem.org/mediawiki/2014/6/6f/HokkaidoU_length_Method2.png">
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<div>Fig. 2 Ligate the anti-sense fragment with H-stem vector</div>
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Therefore, we got anti-sense fragment, as90 and as120. As the same way, we made as30, as60 in H-Stem System and Anti-sense B0034 examination. We performed repression examination by using their 4 anti-sense constructs.</p>
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After we finished synthesizing pre anti-sense fragments, we cut them and H-stem vector (our anti-sense expression vector) by XhoI and NcoI. Finally, we ligated them. The anti-sense constructs are complete because pre anti-sense fragments are ligated reversely. Then, we measured their repression efficiencies. Therefore, we got anti-sense fragment, as90 and as120. As the same way, we made as30, as60 in H-Stem System and Anti-sense B0034 examination. We performed repression examination by using their 4 anti-sense constructs.
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<h1><p>How to assay</p>
<h1><p>How to assay</p>

Latest revision as of 02:30, 15 October 2014

How to synthesize anti-sense constructs

Anti-sense fragments were synthesized based on BioBrick by PCR. Forward primers are common (XhoI-Ptet (-10)). Each reverse primers are different (as90 NcoI, as120 NcoI) (Fig. 1). As90 is the anti-sense that covers 90 bp of mRNA, and as 120 is the anti-sense that covers 120 bp of mRNA (complement RBS and a part of mRFP sequence.) Because of these, we got various length anti-senses. The sides of antisense fragment have restriction enzymes XhoI, NcoI sites.

Fig. 1 Synthesizing anti-sense by PCR
Fig. 2 Ligate the anti-sense fragment with H-stem vector

After we finished synthesizing pre anti-sense fragments, we cut them and H-stem vector (our anti-sense expression vector) by XhoI and NcoI. Finally, we ligated them. The anti-sense constructs are complete because pre anti-sense fragments are ligated reversely. Then, we measured their repression efficiencies. Therefore, we got anti-sense fragment, as90 and as120. As the same way, we made as30, as60 in H-Stem System and Anti-sense B0034 examination. We performed repression examination by using their 4 anti-sense constructs.

How to assay

We selected mRFP for the target gene. We used fluorophotometer to measure how anti-sense worked. The colonies transformed by anti-sense constructs and target gene was used for assay.

  1. To cultivate the colony in 4 mL LB culture for about 20 hours
  2. To control turbidity up to 0.1 at OD600
  3. To cultivate the colony in 2 mL M9ZB culture for 9 hours (100mM IPTG induces antisense constructs, addition 20 uL)
  4. To measure fluorescence after 9 hour