Team:Shenzhen BGIC ATCG/results
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<img src="https://static.igem.org/mediawiki/2013/a/a8/Degmicro.jpg" /> | <img src="https://static.igem.org/mediawiki/2013/a/a8/Degmicro.jpg" /> | ||
<p>The test results of BBa_K1051258 in chip. A,LB medium,O minuts; B, IPTG medium,9minutes; C,IPTG medium, 15 minutes | <p>The test results of BBa_K1051258 in chip. A,LB medium,O minuts; B, IPTG medium,9minutes; C,IPTG medium, 15 minutes | ||
- | Using the IPTG medium, the new RFP expression was stopped and we can regard the lights as degradation tags'effecience. Obviously, the lights are decreasing along with the time. Thus, it indicates that the degradation tags work effectively | + | <p>First of all, yeast will be measured after shaking to about OD2.0 (600)based on the chip which was washed by plasma water, vacuum pumping. The bacteria liquid was pushed into the chip, letting the cells enter the small triangle. Then use the constant flow pump culture medium into chip (the laboratory constant temperature, can not guarantee the training environment, 37 ° E. coli slower growth). The medium speed is about 200ul/h. Finally we test the data after yeast fulled in the triangles.</p> |
+ | <p>Using the IPTG medium, the new RFP expression was stopped and we can regard the lights as degradation tags'effecience. Obviously, the lights are decreasing along with the time. Thus, it indicates that the degradation tags work effectively</p> | ||
<p>预留半衰期换算</p> | <p>预留半衰期换算</p> | ||
Revision as of 13:47, 26 September 2013
Playing with my eyes
aren't you?
Hi I am Dr. Mage!
A "budding" yeast cell!
The Magic
Our project “Cell Magic", a complex work has been completed partly,due to the time limitation. The results we have gotten are listed below:
We verified the Clb6 promoter, which is supposed to be expressed in G1 phase.
Promoter Verification
Using the GFP as reporter and morphological alteration as cell cycle representation, we verified the Clb6 can be activated in G1 phase in the yeast.
As shown in the picture in normal lights, there are some yeast were budding. These budded yeast cells and small size budding yeasts (within the red circles) are assumed in the G1 phase of cell cycle. And the next picture was taken under activation light, thus the green lights can representing the Clb6 promoter expressing. The two pictures indicated the Clb6 were expressed in the G1 phase as we expected when designing the experiments
PS: we modified the contrast ratio to lower the lights of neighbor cells, thus our results looking better.
预留橙色cln3图
预留流式细胞仪图
Reporter Locating
预留荧光蛋白图
The four pictures shows the reporters can rightly locate to Mitochondria, Nucleus and Vacuole,respectively. Picture A is the negative control, all yeast cells are lighted with GFP. And figure B is the reporter to the mitochondria, we can saw there are several light spots in one cells. Figure C is the reporter located in nucleus, the green spots are small and there is only one in a yeast cell.The last picture shows the reporter of Vacuolar membrane, the green lights were discrete in cells which was as expected.
Degradation Rate
In E.coli, the adaptor SspB tethers ssrAtagged substrates to the ClpXP protease, causing a modest increase in their rate of degradation. Which means, a variation of the WT SsrA tag sequence (K1051206, K1051207 and K1051208) will accelerate the degradation of proteins when fused to their C-terminal. Thus the degradation rates are dependent on concentration of proteases and binding mediators. We constructed the measurement pathway of each tag (K1051257, K1051258 and K1051259) to test the rates of degradation of tagged proteins respectively. J04450 was used as positive control because of the same promoter and fluorescent protein.
In every curcuits measurement, we firstly test the growth curve through detecting the absorbance. Taken small amount of bateria, inoculate into 400ul LB medium, ensuring the initial concentration between 0.02-0.05 (OD600). Cultured in the room temperature, detect the OD600 value every 20 minutes. Y axis represents the logarithm of bacteria number, X axis represents the growth time.
From right to left, the negative control,BBa_K1051257, BBa_K1051258, BBa_K1051259, J04450 as Positive Control. As the pictures showed, the lights of RFP within three degradation tags are decreasing.
The test results of BBa_K1051258. A:No exciting lights; B. Powerful exciting lights; C. Weak exciting lights.
In picture, there are only obvious lights in the picture B, indicated the degradation rates are working
预留酶标仪结果图和柱状图,降解效率换算
The test results of BBa_K1051258 in chip. A,LB medium,O minuts; B, IPTG medium,9minutes; C,IPTG medium, 15 minutes
First of all, yeast will be measured after shaking to about OD2.0 (600)based on the chip which was washed by plasma water, vacuum pumping. The bacteria liquid was pushed into the chip, letting the cells enter the small triangle. Then use the constant flow pump culture medium into chip (the laboratory constant temperature, can not guarantee the training environment, 37 ° E. coli slower growth). The medium speed is about 200ul/h. Finally we test the data after yeast fulled in the triangles.
Using the IPTG medium, the new RFP expression was stopped and we can regard the lights as degradation tags'effecience. Obviously, the lights are decreasing along with the time. Thus, it indicates that the degradation tags work effectively
预留半衰期换算
Cell Synchronization
We made the chip as a platform for watching and synchronize the cells. First step is capture the cells by the chip. As showed in the two figures, both E.coli and budding yeast can be captured by the chip successfully.
Alternative Splicing
intron方案”进化“说明