Team:Macquarie Australia/Safety

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Use this page to answer the questions on the safety page.

Safety

iGEM Safety Questions

1. Would any of your project ideas raise safety issues in terms of:

• researcher safety,
• public safety, or
• environmental safety

Guidance:
There are three recommended steps in addressing this question.

1. To start, please list organisms you are using and organisms from which your parts are derived, indicating the risk group or biosafety level for each. For help, see Table 1 and 2 of the World Health Organization (WHO) Laboratory Biosafety Manual. You are welcome to use your national standards if you prefer. If national standards do not use the WHO 1-4 scale, please provide a link to an explanation of your standards.

2. Then consider risks to team members, publics and environment if the project goes according to plan. Please describe risks posed by lab equipment and chemicals as well as biological parts and organisms. How are you addressing these issues in project design and lab work? Have you received biosafety training and other laboratory safety training? If so, please briefly describe the training.

3. Then consider risks to team members, publics and environment if the project does not go according to plan. What are risks if safety measures such as containment procedures go wrong and organisms or parts are released? What are risks to security from malicious misuse? How are you addressing such risks?


Project Safety concerns:

To minimise risk of contamination or harm to researchers participating in the study or the environment, all students involved in the iGEM Macquarie University 2013 team received safety information according to the Macquarie University’s safety guidelines. The team also experienced an induction on how to operate specific machines within the lab, for example how to safely use the electroporator when dealing with chemicals and containers. We were supervised at all times by a senior member, or professor when working within the labs. A few examples of safe practices we employed to avoid biological material contamination include; disposal of biological waste in biohazard bins, correct labelling of materials, disinfect (with ethanol) the benches both before and after use and adhere to safe laboratory practices (including wearing lab coats, glasses and enclosed shoes etc.). Also to protect personnel and the environment, the chemicals involved in the lab work were used according to MSDS standards.

The host cells we used were Escherichia coli Star, which is categorised as a Biosafety Level 1 according to the World Health Organisation (WHO). Thus this E. coli strain has a low health risk to humans, the community and the environment. The plasmid pSB1S3 was provided by iGEM and is identified as a low safety risk (BSL1). The gBlocks, vector DNA and chlorophyll genes (which originated form Chalymodmonas reinhardtii) and were meticulously handled according to the gene regulations of the Australian Government’s Office of the Gene Technology Regulator, whom abide by the Gene Technology Act 2000.

Pathogenic sequences? Search GenBank.

2. Do any of the new BioBrick parts (or devices) that you made this year raise safety issues? If yes,

• Did you document these issues in the Registry?
• How did you manage to handle the safety issue?
• How could other teams learn from your experience?

Guidance:
Please reference the biosafety level of parts. If you are working with anything other than a BSL1 organism, take extra care with this question. Your nation regulates handling and transfer of pathogens and parts associated with pathogenicity. For a list of regulated organisms, see the Australia Group website.

Potential BioBrick safety concerns:

We are not aware of any dangers with any of the biobrick parts that we are using in the project. We will continue to monitor for any issues with the parts as the project progresses.

3. Is there a local biosafety group, committee, or review board at your institution?


• If yes, what does your local biosafety group think about your project?
• If no, which specific biosafety rules or guidelines do you have to consider in your country?

Guidance:

The iGEM Safety Committee is not a substitute for national and local university institional biosafety committees

1. Does your university have a Biosafety Committee or equivalent? Please provide a link to regulations and local requirements.
2. Is your project in compliance with national regulations and university requirements?
3. If you are working with any organisms or parts requiring containment arrangements above BSL 1 or equivalent, have you consulted with your Institutional Biosafety Committee regarding your project?

4. Do you have any other ideas how to deal with safety issues that could be useful for future iGEM competitions? How could parts, devices and systems be made even safer through biosafety engineering?


Guidance:

This is an open-ended space for you to consider and suggest ways of improving safety or safety awareness at iGEM and beyond. Some iGEM teams have offered ideas (and sometimes full projects) to limit gene flow, to create software for screening pathogens, and to reduce reliance on antibiotic resistant markers. Other iGEM projects have discussed concerns that might arise if the project succeeded and became widely used, as commercial product or other means of distribution. Some iGEM projects have discussed risks that might materialize if the knowledge generated or methods developed were to become more widely available.