Team:SJTU-BioX-Shanghai/Results/Test/Overall
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Now it is the very time to test the whole system!! :) | Now it is the very time to test the whole system!! :) | ||
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=Overall System= | =Overall System= | ||
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=='''Blue System'''== | =='''Blue System'''== | ||
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'''Figure 2. Relationship between mRFP expression and light intensity.'''<br> (a). Quantitative measurement of mRFP produc-tion under different light intensities. Bar height represents mRFP production in 15 hours under different light intensi-ties. Error bars shows the standard error (s.e.) of parallel groups. mRFP production gradually increases about one-fold.<br> (b). A photo of the experiment result in Figure 2a. The red color gradient of mRFP is observable even by naked eye. | '''Figure 2. Relationship between mRFP expression and light intensity.'''<br> (a). Quantitative measurement of mRFP produc-tion under different light intensities. Bar height represents mRFP production in 15 hours under different light intensi-ties. Error bars shows the standard error (s.e.) of parallel groups. mRFP production gradually increases about one-fold.<br> (b). A photo of the experiment result in Figure 2a. The red color gradient of mRFP is observable even by naked eye. | ||
- | + | '''Properties for Precise Regulation''' | |
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'''·''' Under optical saturation, mRFP is produced about twice as fast as it is in the darkness, indicat-ing a relatively wide range for adjusting regulation effect. And the regulation range can be further enlarged by intro-ducing additional gRNAs for the same target. | '''·''' Under optical saturation, mRFP is produced about twice as fast as it is in the darkness, indicat-ing a relatively wide range for adjusting regulation effect. And the regulation range can be further enlarged by intro-ducing additional gRNAs for the same target. | ||
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'''·''' The regulation range is wide; | '''·''' The regulation range is wide; | ||
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- | '''·''' The increase is steady ( | + | '''·''' The increase is steady (R square=0.924); |
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'''·''' The system performance is relatively robust. | '''·''' The system performance is relatively robust. | ||
- | + | ==Conclusion of Blue System Evaluation== | |
+ | By serially connecting blue light sensor (YF1-FixJ-PFixK2) and CRISPRi, the expression of target gene can be quantitatively related to light signals. Therefore, sen-sor-CRISPRi can be applied where it is necessary to precisely regulate endogenous genes, e.g. in medical therapies and in metabolic optimization. | ||
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=='''Red System'''== | =='''Red System'''== | ||
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[[File:Red luciferase result.png|1000px]] | [[File:Red luciferase result.png|1000px]] | ||
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+ | <h1 style="color:grey;">References</h1> | ||
+ | <p style="color:grey;"> | ||
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+ | OHLENDORF, R., VIDAVSKI, R. R., ELDAR, A., MOFFAT, K. & M GLICH, A. 2012. From dusk till dawn: One-plasmid systems for light-regulated gene expression. Journal of Molecular Biology, 416, 534-542. | ||
+ | </p></html> | ||
Latest revision as of 01:38, 17 January 2014