Team:StanfordBrownSpelman/Safety
From 2014.igem.org
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<h3><center><a href="https://2014.igem.org/Team:StanfordBrownSpelman/Safety">Safety</a></h3> | <h3><center><a href="https://2014.igem.org/Team:StanfordBrownSpelman/Safety">Safety</a></h3> | ||
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- | <h7><center><a href="#" id="intro">Summary</a> ● <a href="#" id=" | + | <h7><center><a href="#" id="intro">Summary</a> ● <a href="#" id="methods">Amberless Chassis</a> ● <a href="#" id="links">Safety Sheets</a></h7> |
</div> | </div> | ||
- | <h5 id="int"><center> | + | <h5 id="int"><center>Summary</h5> |
<h6> The Rothschild lab hosts students at NASA Ames Research Center, and as such we must complete online training courses in chemical hygiene, hearing conservation, HAZCOM 2012, hazardous waste/environmental safety, and personal protective equipment, as well as an instructor-led lab safety practical. <br></br> | <h6> The Rothschild lab hosts students at NASA Ames Research Center, and as such we must complete online training courses in chemical hygiene, hearing conservation, HAZCOM 2012, hazardous waste/environmental safety, and personal protective equipment, as well as an instructor-led lab safety practical. <br></br> | ||
The most important factor in good laboratory practice is personal safety. To that end, we adhered to the use of nitrile gloves for all lab work, as well as safety goggles for any work with irritants. In addition, we divided our workspace into separate areas for computer work, bench work (for daily lab procedures), and work in the fume hood (for work with corrosives and organic solvents).</h6> | The most important factor in good laboratory practice is personal safety. To that end, we adhered to the use of nitrile gloves for all lab work, as well as safety goggles for any work with irritants. In addition, we divided our workspace into separate areas for computer work, bench work (for daily lab procedures), and work in the fume hood (for work with corrosives and organic solvents).</h6> | ||
- | <h5><center> <br></br> The Amberless Chassis</h5> | + | <h5 id="process"><center> <br></br> The Amberless Chassis</h5> |
<h6>In addition to safe laboratory practices, we also examined environmental safety concerns. An end goal of our project would be the flight of our biological drone in nature, and if such a system contained live cells, we would run the risk of the horizontal transfer of our engineered genes to wild organisms, which would be unpredictable and potentially harmful to the ecosystem. To combat this, we are looking at the use of an “amberless” system in which the tRNA of our model organism is modified such that the UAG stop codon – called “amber” – codes instead for leucine. This way, if these genes are transferred to wild-type organisms, they will interpret the UAGs as a stop, and the resulting polypeptide would be truncated and non-functional.<br></br> | <h6>In addition to safe laboratory practices, we also examined environmental safety concerns. An end goal of our project would be the flight of our biological drone in nature, and if such a system contained live cells, we would run the risk of the horizontal transfer of our engineered genes to wild organisms, which would be unpredictable and potentially harmful to the ecosystem. To combat this, we are looking at the use of an “amberless” system in which the tRNA of our model organism is modified such that the UAG stop codon – called “amber” – codes instead for leucine. This way, if these genes are transferred to wild-type organisms, they will interpret the UAGs as a stop, and the resulting polypeptide would be truncated and non-functional.<br></br> | ||
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- | <h5><center>Safety Sheets</h5> | + | <h5 id="references"><center>Safety Sheets</h5> |
<h6> | <h6> | ||
<p> Our lab safety sheets can be found <a href = "https://igem.org/Safety/Safety_Form?team_id=1499"> here </a>. </p> | <p> Our lab safety sheets can be found <a href = "https://igem.org/Safety/Safety_Form?team_id=1499"> here </a>. </p> |
Revision as of 00:38, 14 October 2014
Safety
Summary
The Rothschild lab hosts students at NASA Ames Research Center, and as such we must complete online training courses in chemical hygiene, hearing conservation, HAZCOM 2012, hazardous waste/environmental safety, and personal protective equipment, as well as an instructor-led lab safety practical.
The most important factor in good laboratory practice is personal safety. To that end, we adhered to the use of nitrile gloves for all lab work, as well as safety goggles for any work with irritants. In addition, we divided our workspace into separate areas for computer work, bench work (for daily lab procedures), and work in the fume hood (for work with corrosives and organic solvents).
The Amberless Chassis
The Amberless Chassis
In addition to safe laboratory practices, we also examined environmental safety concerns. An end goal of our project would be the flight of our biological drone in nature, and if such a system contained live cells, we would run the risk of the horizontal transfer of our engineered genes to wild organisms, which would be unpredictable and potentially harmful to the ecosystem. To combat this, we are looking at the use of an “amberless” system in which the tRNA of our model organism is modified such that the UAG stop codon – called “amber” – codes instead for leucine. This way, if these genes are transferred to wild-type organisms, they will interpret the UAGs as a stop, and the resulting polypeptide would be truncated and non-functional.
We have discussed this system with Mark Segal at the Environmental Protection Agency, and we are beginning to examine the possibility of regulating the environmental testing of genetically-engineered organisms using an amberless chassis to prevent gene transfer. Stay tuned!
Safety Sheets
Our lab safety sheets can be found here .
Our Lab
Our Lab
Use this section to tell us about your laboratory. Where is it located? What sort of equipment do you use every day? Have you decorated it for the summer? How do you look wearing a lab coat? Take pictures! Show off your space!
Our lab is unique in that it is located in building 239, the Astrobiology and Life Sciences Research Laboratory, at NASA Ames Research Center. The surface of the building is pock-marked to look like the surface of the moon. Besides being the home for the Stanford-Brown-Spelman iGEM team, The Astrobiology and Life Sciences Research Laboratories contain the Human Environmental Test Facility and the Advanced Studies Laboratories (ASL), used for research in biomedicine, astrobiology, ecosystem science, Closed Ecological Life-Support Systems (CELSS), Environmental Controls and Life Support Systems (ECLSS), nanotechnology, and Synthetic Biology. The Astrobiology facilities include basic and applied research laboratories in astrochemistry, the cosmic evolution of biogenic elements and molecules, planetary pre-biotic chemistry, geology, the early organization and evolution of life, the evolution of complex organisms, and ecological studies. Some laboratory facilities include instrument development capabilities and analytical equipment for the characterization of gas and aqueous chemistry, instruments for the detection of various biomarkers including sugars and organics, microbiology facilities, including the culture of microbial mat communities and planetary protection testing, electron and RAMAN microscopy facilities, molecular biology capabilities, and bioinformatics computational capabilities. Laboratories in this facility are operated by NASA personnel and the University of California. Image:Example2_Lab_1.png|The building our lab is in! Image:Example2_Lab_2.png|The inside of our lab! Image:Example2_Lab_3.png|Team Member 3 doing an experiment Image:Example2_Lab_4.png|Working in biosafety cabinets Image:Example2_Lab_5.png|Team all gloved up and ready for work! Image:Example2_Lab_6.png|Equipment that we use to do SCIENCE! Image:Example2_Lab_7.png|We decorated this part of our lab Image:Example2_Lab_8.png|Whatever else you want