Team:SJTU-BioX-Shanghai/Results

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Reformed Plasmid Result

We designed four reformed plasmids, pBluescript II KS(+) ScaI deletion, pBluescript II KS(+) EcoRV deletion, pBluescript II KS(+)_3_copy, pBluescript II KS(+)_5_copy. And we test their co-transformation ability and get the result picture. All of these plasmid has Amp antibiotic resistance.

We co-transformed pRSFDuet-1 and two plasmids, pBluescript II KS(+) ScaI deletion & pBluescript II KS(+) EcoRV deletion, respectively. So the plate has two antibiotic resistance, Kan and Amp. We culture two different strains on the plate and get the result picture.

Figure 2.1.1 Two plates of Co-transfected bacteria (pBluescript II KS(+) ScaI deletion & pBluescript II KS(+) EcoRV deletion)

Moreover, we verify our pBluescript II KS(+)_3_copy, pBluescript II KS(+)_5_copy part through lacl & blue-white spot screening.

Figure 2.1.2 Two plates of lacl & blue-white spot screening

So we experimentally validate that our reformed plasmids perform as expected.

TAL USB function identification

The membrane anchor system (ssDsbA-Lgt) comes from iGEM12_SJTU-BioX-Shanghai BBa_K771000 In order to connect TAL protein designed by 2012 Freiburg iGEM team, the TAL USB also consists of T1 sequence, T14 sequence and two sites for type II restriction enzyme BsmBI. When digested with BsmBI, this part can produce two sticky-ends that can bind TAL-Protein (BBa_K747000 to BBa_K747095) After doing ligation with T4 Ligase, we experimentally validated this part's function. Sequencing result is followed:

GGAATTCCATATGAAAAAGATTTGGCTGGCGCTGGCTGGTTTAGTTTTAGCGTTTAGCGCATCGGCGATGGCTTCC
 TCCGAAGACGTTATCAAAGAGTTCATGCGTTTCAAAGTTCGTATGGAAGGTTCCGTTAACGGTCACGAGTTCGAAA
 TCGAAGGTGAAGGTGAAGGTCGTCCGTACGAAGGTACCCAGACCGCTAAACTGAAAGTTACCAAAGGTGGTCCGCT  
 GCCGTTCGCTTGGGACATCCTGTCCCCGCAGTTCCAGTACGGTTCCAAAGCTTACGTTAAACACCCGGCTGACATC
 CCGGACTACCTGAAACTGTCCTTCCCGGAAGGTTTCAAATGGGAACGTGTTATGAACTTCGAAGACGGTGGTGTTG
 TTACCGTTACCCAGGACTCCTCCCTGCAAGACGGTGAGTTCATCTACAAAGTTAAACTGCGTGGTACCAACTTCCC
 GTCCGACGGTCCGGTTATGCAGAAAAAAACCATGGGTTGGGAAGCTTCCACCGAACGTATGTACCCGGAAGACGGT
 GCTCTGAAAGGTGAAATCAAAATGCGTCTGAAACTGAAAGACGGTGGTCACTACGACGCTGAAGTTAAAACCACCT
 ACATGGCTAAAAAACCGGTTCAGCTGCCGGGTGCTTACAAAACCGACATCAAACTGGACATCACCTCCCACAACGA
 AGACTACACCATCGTTGAACAGTACGAACGTGCTGAAGGTCGTCACTCCACCGGTGCTGCTGAGGCCGCCGCAAAA
 GAAGCAGCAGCTAAGGAAGCTGCGGCGAAGATGACCAGTAGCTATCTGCATTTTCCGGAGTTTGATCCGGTCATTT
 TCTCAATAGGACCCGTGGCGCTTCACTGGTACGGCCTGATGTATCTGGTGGGTTTCATTTTTGCAATGTGGCTGGC
 AACACGACGGGCGAATCGTCCGGGCAGCGGCTGGACCAAAAATGAAGTTGAAAACTTACTCTATGCGGGCTTCCTC
 GGCGTCTTCCTCGGGGGACGTATTGGTTATGTTCTGTTCTACAATTTCCCGCAGTTTATGGCCGATCCGCTGTATC
 TGTTCCGTGTCTGGGACGGCGGCATGTCTTTCCACGGCGGCCTGATTGGCGTTATCGTGGTGATGATTATCTTCGC
 CCGCCGTACTAAACGTTCCTTCTTCCAGGTCTCTGATTTTATCGCACCACTCATTCCGTTTGGTCTTGGTGCCGGG
 CGTCTGGGCAACTTTATTAACGGTGAATTGTGGGGCCGCGTTGACCCGAACTTCCCGTTTGCCATGCTGTTCCCTG
 GCTCCCGTACAGAAGATATTTTGCTGCTGCAAACCAACCCGCAGTGGCAATCCATTTTCGACACTTACGGTGTGCT
 GCCGCGCCACCCATCACAGCTTTACGAGCTGCTGCTGGAAGGTGTGGTGCTGTTTATTATCCTCAACCTGTATATT
 CGTAAACCACGCCCAATGGGAGCTGTCTCAGGTTTGTTCCTGATTGGTTACGGCGCGTTTCGCATCATTGTTGAGT
 TTTTCCGCCAGCCCGACGCGCAGTTTACCGGTGCCTGGGTGCAGTACATCAGCATGGGGCAAATTCTTTCCATCCC
 GATGATTGTCGCGGGTGTGATCATGATGGTCTGGGCATATCGTCGCAGCCCACAGCAACACGTTTCCTTAGGAGGT
 GGAGGTAGTGGTGGAGGTGGAAGTGGTGGAGGTGGTAGTGCTGCAGCTCTGGACACGGGCCAGTTGCTGAAGATCG
 CGAAGCGGGGAGGAGTCACGGCGGTCGAGGCGGTGCACGCGTGGCGCAATGCGCTCACGGGAGCACCCCTCAACCT
 GACCCCGGAACAGGTGGTGGCCATTGCAAGCAACGGTGGTGGCAAGCAGGCCCTGGAGACAGTCCAACGGCTGCTT
 CCGGTTCTGTGTCAGGCCCACGGCCTGACTCCAGAACAAGTGGTTGCTATCGCCAGCCACGATGGCGGTAAACAAG
 CCCTCGAAACCGTGCAGCGCCTGCTTCCGGTGCTGTGTCAGGCCCACGGGCTCACGCCTGAGCAGGTAGTGGCTAT
 TGCATCCAACGGAGGGGGCAGACCCGCACTGGAGTCAATCGTGGCCCAGCTTTCGAGGCCGGACCCCGCGCTGGCC
 CACCACCACCACCACCACTAACTCGAGCGG