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. |
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- | · The variance (standard errors are represented as error bars in Figure 2a) is relatively small. So our system is stable, and a pre-determined working curve can be referenced in later experiments. | + | '''·''' The squared Pearson coefficient (R2) of linear fit is calculated to be 0.901. So the expression is stably accelerated as we lift up light intensity (even if the relationship is not strictly linear), making it easier for researchers to locate an optimal regula-tion. |
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+ | '''·''' The variance (standard errors are represented as error bars in Figure 2a) is relatively small. So our system is stable, and a pre-determined working curve can be referenced in later experiments. | ||
==Endogenous fadD Test== | ==Endogenous fadD Test== | ||
- | We next examined how sensor-CRISPRi acts on fadD. Even though favorable results have already been acquired in mRFP tests, we still need to verify that our system also works for genome-residing genes. Unlike plasmid genes, genome-residing genes are generally single-copied, thus may behave differently under regulation | + | '''Genome-residing Gene?''' |
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- | + | We next examined how sensor-CRISPRi acts on fadD. Even though favorable results have already been acquired in mRFP tests, we still need to verify that our system also works for genome-residing genes. | |
- | + | <br> | |
- | + | Unlike plasmid genes, genome-residing genes are generally single-copied, thus may behave differently under regulation. | |
+ | '''Redirect Regulation''' | ||
+ | <br> | ||
+ | We replaced the base-pairing region of gRNA by inverse PCR to redirect sensor-CRISPRi onto this fadD. From this redirection, a bonus of CRISPRi can be observed: in case that researchers change their targets, all they need is to substitute a 20-nt sequence. | ||
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+ | '''Ensure Similar OD''' | ||
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+ | Bacteria are cultured in darkness to stationary phase (OD600 ≈ 2.0) before they are divided into different experi-ment groups. After another 15 hours’ culture under different blue light intensities, cell bodies are collected for RNA ex-traction. | ||
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+ | '''Assay fadD mRNA Amount with RT-PCR''' | ||
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+ | Real-Time PCR (RT-PCR) is applied to assay the amount of fadD mRNA. gapA, the E. coli house-keeping gene for glyceraldehyde-3-phosphate dehydrogenase (GADPH, EC 1.2.1.12), served as the internal reference(8). And in relative quantitation (comparative threshold method), we took wild type E. coli strain BL21 (DE3) as the control. The result is presented in Figure 3. | ||
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+ | [[File:SJTU13fadD.png]] | ||
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+ | '''Figure 3. Relationship between fadD transcription and light intensity.''' | ||
+ | <br> | ||
+ | Bar height represents the relative amount of fadD mRNA. Error bars shows the standard error (s.e.) of parallel groups. Transcription level gradually increases about one-fold. | ||
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+ | The eligibility of sensor-CRISPRi in precise regulation is confirmed on this genome-residing gene. mRNA amount of fadD increases continuously and steadily when blue light exposure is enlarged. All three properties revealed in plasmid mRFP test are repeated here: | ||
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+ | '''·''' The regulation range is wide; | ||
+ | <br> | ||
+ | '''·''' The increase is steady (R square=0.924); | ||
+ | <br> | ||
+ | '''·''' The system performance is relatively robust. | ||
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+ | ==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;"> | ||
+ | <br> | ||
+ | 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