Difference between revisions of "Team:LZU-China/chz safety"
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− | <p>Our team determined to make all aspects of the entire project perfect, especially biosafety. The one and the only organisms we used is Escherichia coli whose lab strains that are not harmful to human at all. The main risks in our experiment is the heavy metal we used to exam our parts. To reduce that, we do many experiments in draught cupboards and we use latex gloves and masks to protect ourselves. </p> | + | <p>Our team determined to <b>make</b> all aspects of the entire project perfect, especially biosafety. The one and the only organisms we used is Escherichia coli whose lab strains that are not harmful to human at all. The main risks in our experiment is the heavy metal we used to exam our parts. To reduce that, we do many experiments in draught cupboards and we use latex gloves and masks to protect ourselves. </p> |
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Revision as of 11:56, 16 September 2015
Our team determined to make all aspects of the entire project perfect, especially biosafety. The one and the only organisms we used is Escherichia coli whose lab strains that are not harmful to human at all. The main risks in our experiment is the heavy metal we used to exam our parts. To reduce that, we do many experiments in draught cupboards and we use latex gloves and masks to protect ourselves.
Our device is designed of a safer future. We design a MFC-based device. The bacteria can sense many kinds of ions and it can improve the voltage in MFC. We modify the E.coli to make it can produce riboflavin when sensed ions. Our device is designed as an enclosed systems. The measurement of the wastewater is safe, and neither the genetically modified sensor cells nor the wastewater is impossible to leak at all. Our device is designed for industrial purpose, and it is really cheap.
Fig.1 Comparison of MFC and AAS
Our device can be very helpful in many fields. For more information, please contacted with Xiangkai Li
Part number | Part number | Where did us get the physical DNA for this part | What is the Risk Group of the species? | How will you use it? |
---|---|---|---|---|
1 | pSB1C3 | From Li Xiangkai's Lab, Lanzhou University | 1 | Vector for E.coli to express BBA_K1755301 Submission vector for all parts |
2 | K1755001 | Synthetize | 1 | Every parts' foundation |
3 | K1755002 | Parts construction | 1 | Foundation of other parts |
4 | K1755003 | Parts construction | 1 | Foundation of other parts |
5 | K1755004 | Parts construction | 1 | Testing riboflavin expression quantity |
6 | K1755005 | Parts construction | 1 | Testing riboflavin expression quantity |
7 | K1755006 | Parts construction | 1 | Testing riboflavin expression quantity |
8 | K1755007 | Parts construction | 1 | Testing riboflavin expression quantity |
9 | K1755008 | Parts construction | 1 | Testing riboflavin expression quantity |
10 | K1755009 | Parts construction | 1 | Testing riboflavin expression quantity |
11 | K1755301 | Synthetize | 1 | Used in MFC |
12 | K1755302 | Synthetize | 1 | Used in MFC |
13 | K1755303 | Synthetize | 1 | Used in MFC |
14 | K1755305 | Synthetize | 1 | Used in MFC |
15 | K1755024 | Parts construction | 1 | Used in MFC |