Part:BBa_K2036013
RBS-CII-TT-pRE-RBS-GFP-LVAssrAtag
It is a GFP regulationary circuits. When CII is expressed it can further activate GFP and forming a Switching Lag-times. HUST-China 2016 build this part to characterize CII and pRE interaction with a control group:pRE-GFP-LVAssrAtag ( BBa_K2036011). And we also construct a tandem expression of CII (BBa_K2036015)to figure out if the flouresence level will come up with CII.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000INCOMPATIBLE WITH RFC[1000]Illegal BsaI.rc site found at 1168
Protein&promoter
--CII and pRE
CII (BBa_K2036000 ) functions as a transcriptional activator to direct promoter RE, so we constructed CII-TT-pRE-RBS-GFP-LVAssrAtag as test group and pRE-RBS-GFP-LVAssrAtag as CK to see if CII efficiently activate pRE.
Protein&protein reaction
We had submitted and documented RBS-CIII-RBS-CIII-RBS-CII-TT-pRE-RBS-GFP-LVAssrAtag (BBa_K2036014 ) and RBS-CII-RBS-CII-RBS-CII-TT-pRE-RBS-GFP-LVAssrAtag (BBa_K2036015 ). These two parts were to test whether CIII can protect CII from being degraded by Ftsh by competitive inhibition.
Preliminary experiments of LVAssrA-tag
In order to prove that our toolkit is efficient to switch two interest genes’ expression from GFP to RFP and to eliminate the accumulation of expressed protein to interfere our measurement. We fused a degradation tag at the amino terminal of our reporter. And we used plac from the Rgistery (BBa_J04500 ) to characterize the degradation tag LVAssrA. We use IPTG with final concentration of 1mM to induce the GFP-LVAssrAtag and measure the relative fluorescence through plate reader with Excitation light 495nm.
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