Safety
Safety is the acutest problem when it comes to genetically modified organism. We figured this problem out from three aspects: Project design, Lab work and Shipment.
Project design
Being responsible for our earth and ourselves is our attitude towards every experiment. In our project, all the parts we have utilized are selected from Risk Group 1, none of which are with a Red Flag. What’s more, nonpathogenic bacteria, E.coli DH5α is employed as the main chassis for our prior design on the DNA sequence, stem-loop and enzyme. As a matter of fact, when using hairpins and csy4 enzyme to tune the expression of genes, it is relatively safe for industrialized applications and scientific research. Based on this, We designed more variants of csy4 enzymes and hairpins. (See more details in xxx and xxx about the variants of csy4 enzymes and hairpins.)So we used these to create a toolkit named miniToe family for synthetic biology which can control the expression of the target gene gradient. What’s more, we used the motA gene, one of the genes regulating the motility of E.coli, to verify the feasibility and effectiveness of the toolkit. For the sake of environment, all the chassis organisms will be sterilized before being abandoned to prevent the genes from leaking.
Safe lab work
We works at a neat lab named “Lab for Microinnovation and Enterprise”, which is a BSL-2 laboratory. Before working in the lab, we are supposed to be trained by the skillful hands, not only for the general lab safety rules, but also for the standard experimental operation avoiding unnecessary damage. No experiment carries no risk to the experimenters, hence we are properly equipped with facilities, such as latex gloves, nitrile gloves, goggles, lab coats to protect us from biotic and abiotic hazards.
Fig.1 Our laboratory
Fig.2 Our personal safety precautions
Fig.3 Table for routine inspection
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