Difference between revisions of "Team:Cambridge-JIC/Safety"
| Line 13: | Line 13: | ||
<P>Safety is at the centre of everything that we do. We have a responsibility to protect our own welfare, but also (as a GM lab) to ensure that we don’t accidentally change the world. </P> | <P>Safety is at the centre of everything that we do. We have a responsibility to protect our own welfare, but also (as a GM lab) to ensure that we don’t accidentally change the world. </P> | ||
| − | <h2> | + | <h2>Personal Safety</h2> |
<p>Most of our safety procedures have been based upon existing safety frameworks that have been used within the Cambridge University Department of Plant Sciences; and experimentation is conducted under the supervision of technical experts. There are some aspects of our project which have required further thought, as it does not correspond to any existing frameworks.</p> | <p>Most of our safety procedures have been based upon existing safety frameworks that have been used within the Cambridge University Department of Plant Sciences; and experimentation is conducted under the supervision of technical experts. There are some aspects of our project which have required further thought, as it does not correspond to any existing frameworks.</p> | ||
| − | <h2> | + | <h2>Chassis organism control</h2> |
| − | <p> | + | <p>In our project we used E.coli and Chlamydomonas reinhardtii as our chassis organisms. All culture media containing those organisms and all liquid and solid wastes related were properly autoclaved before disposal</p> |
| − | <p>We are of course careful to implement various protection methods as may be required. This does | + | <h2>Cas9: Avoiding Gene Drive</h2> |
| + | <p>The release of any GM plant to the environment is obviously not good news, but the releasing a gene drive is especially bad. Our unique approach to using self-expressing cas9 (subject to design), is intended to propagate throughout the chloroplast genome. There is an inherent risk that this propagation may spread to the natural algae population.</p> | ||
| + | |||
| + | <p>We are of course careful to implement various protection methods as may be required. This does start with safe containment -- but ‘kill switches’ and methods to prevent sexual reproduction have also been considered.</P> | ||
<hr style="width: 100%; color: black; height: 2px; background-color:black" align="left"> | <hr style="width: 100%; color: black; height: 2px; background-color:black" align="left"> | ||
Revision as of 17:02, 11 October 2016
Safety
Safety is at the centre of everything that we do. We have a responsibility to protect our own welfare, but also (as a GM lab) to ensure that we don’t accidentally change the world.
Personal Safety
Most of our safety procedures have been based upon existing safety frameworks that have been used within the Cambridge University Department of Plant Sciences; and experimentation is conducted under the supervision of technical experts. There are some aspects of our project which have required further thought, as it does not correspond to any existing frameworks.
Chassis organism control
In our project we used E.coli and Chlamydomonas reinhardtii as our chassis organisms. All culture media containing those organisms and all liquid and solid wastes related were properly autoclaved before disposal
Cas9: Avoiding Gene Drive
The release of any GM plant to the environment is obviously not good news, but the releasing a gene drive is especially bad. Our unique approach to using self-expressing cas9 (subject to design), is intended to propagate throughout the chloroplast genome. There is an inherent risk that this propagation may spread to the natural algae population.
We are of course careful to implement various protection methods as may be required. This does start with safe containment -- but ‘kill switches’ and methods to prevent sexual reproduction have also been considered.
