Team:UT-Tokyo/CTCD/Content/Result

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<img src="SubCTC_miRNA_binding_sites.png" class = "contTitle" />

Our aim was to make a construct like below.(Fig.1)

<img src="Kobari_pegp2.png" class = "figure" /> 

       <legend>Fig. 1</legend>

miRNA142-5p sequence is CAUAAAGUAGAAAGCACUACU .
miRNA142-3p sequence is UGUAGUGUUUCCUACUUUAUGGA.

The target sequence is complementary to the miRNA142-5p and miRNA142-3p sequence.

miRNA142-5p binding site is AGTAGTGCTTTCTACTTTATG.
miRNA142-3p binding site is TCCATAAAGTAGGAAACACTACA.

We constructed miRNA-binding sites by annealing the two oligos shown below (BBa_K1461100, BBa_K1461101).

5’-GCGGAATTCGCGGCCGCTTCTAGAGCATAAAGTAGAAAGCACTACTTACTAGTAGCGGCCGCTGCAGGCG-3’
5’-CGCCTGCAGCGGCCGCTACTAGTAAGTAGTGCTTTCTACTTTATGCTCTAGAAGCGGCCGCGAATTCCGC-3’

When we made miRNA-binding site connected tandemly, we couldn’t use PCR or gel extraction because they contained repeats and short sequences . So we had to anneal two oligos and insert in the plasmid.(Fig.2)

<img src="Tomohuji001.png" class = "figure" /> 

       <legend>Fig. 2</legend>

This method can be used for other miRNA-binding sites or other parts not suitable for PCR or gel extraction .

Constructs we planed to use in this experiment were already made apart from EGP-2 promoter, and sequences were confirmed (BBa_K1461306, BBa_K1461307, BBa_K1461308, BBa_K1461309, BBa_K1461310, BBa_K1461311). But cloning of EGP-2 was not successful.
So we have to clone EGP-2 promoter, make the construct,and perform reporter assay before our presentation.

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