Team:USTC-China/safety/details

From 2014.igem.org

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<p>G-: Gram negative bacteria <br />
<p>G-: Gram negative bacteria <br />
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<div align="center"><img src="https://static.igem.org/mediawiki/2014/4/40/USTC-China_Safety_Details.png" class="th"/></div></p>
<h3>Principle:</h3>
<h3>Principle:</h3>

Revision as of 19:38, 17 October 2014

Safety Training in our team

We had taken several experiment training before this very summer vocation during which we spent to conduct our project.

To ensure the safety of people in our lab as well as the goal of protecting our experiment, firstly we invited our academic adviser Jiong Hong, to give us a guidance to use the laboratory apparatus correctly. Besides, professor Hong also emphasized the potential toxicity of chemical drugs we use, such as Gelred when doing agarose gel electrophoresis.But of course our lab ranks Risk 1, which means it’s very safe for us students as long as we follow the rules in the lab. Moreover, we also invited previous iGEM team members to give us more detailed attention when doing experiments, and it’s helpful very much.

Kill Switch in E.coli

This year our safety work is based on E.coli, since some of our work is on light sensing and imaging system in E.coli. To make a wider application in the future, the biosafety of E.coli containing these parts should be concerned.

Anti-LPS factor(LALF) regulated by lacI

We designed the part based on K541545. We found that R0010 might keep expressing genes below without regulation.Reason may be that Lacl expressed by E.coil is limited. So we inserted parts that express Lacl and constitutive promoter before the old one to inhibit pLac.

Anti-LPS factor(LALF) regulated by IPTG

This part is a cell-kill system. Firstly,constitutive promoter could express enough Lacl that is useful for downstream. Secondly, the reporter in the middle of our part wouldn't show signal nor the cell be killed by the part behind unless IPTG or lactose added into the culture medium. No IPTG or lactose: LALF won't express ,G- won't be killed. IPTG or lactose existing: LALF will express ,G- will be dead.

G-: Gram negative bacteria

Principle:

Limulus anti-LPS factor (LALF) binds LPS on anti-gram negative bacterial surface tightly, forming a biofilm. This can prevent nutrient from entering the cell, causing the growth inhibition.

Also, the biofilm can prevent Plasmid spreading to the environment and gene pollution.

Besides, to make LALF across the cell membrane and bind to LPS, we still need  an efficient protein export signal sequence of E. coli. leading LALF into extra-cellular environment.