Team:HUST-China/HumanPractice

From 2013.igem.org

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             Better documentation and standardization of parts is required. And some safety analysis tools should be extensively incorporated into synthetic biology models. Through human practices project, exploring different perspectives of synthetic biology by asking members of the public, as well as iGEM participants.  
             Better documentation and standardization of parts is required. And some safety analysis tools should be extensively incorporated into synthetic biology models. Through human practices project, exploring different perspectives of synthetic biology by asking members of the public, as well as iGEM participants.  
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<div><strong>Frequently Asked Question:5.Do you seriously planning to let patients to take <i>E.Coli</i> into their bodies? Wouldn't it cause safety issues?</strong>
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<div id="OCDDS"><strong>Frequently Asked Question:<br>
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5.Do you seriously planning to let patients to take <i>E.Coli</i> into their bodies? Wouldn't it cause safety issues?</strong>
<p>Yes, we plan to make our engineered  cells oral-taking. But don't worry, we have designed a safety way. We decide to encapsulate them in a microencapsulation. The material of the microencapsulation is a semipermeable membrane, allowing small molecules such as propionate to get out of the encapsulation while not allowing the bacteria to get out of it due to its bigger size. In the end, the bacteria will be excreted in the stool along with the microencapsulation. Now we can keep propionate coming out periodically and bacteria from contacting human intestine. Problem solved!</p>
<p>Yes, we plan to make our engineered  cells oral-taking. But don't worry, we have designed a safety way. We decide to encapsulate them in a microencapsulation. The material of the microencapsulation is a semipermeable membrane, allowing small molecules such as propionate to get out of the encapsulation while not allowing the bacteria to get out of it due to its bigger size. In the end, the bacteria will be excreted in the stool along with the microencapsulation. Now we can keep propionate coming out periodically and bacteria from contacting human intestine. Problem solved!</p>
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Revision as of 07:34, 28 October 2013

Outreach

1 . Publication awareness

This May,we volunteered to a local high school to introduce the advancement of synthetic biology. We told them about the iGEM jamborees and famous teams in the world. We were happy to see more and more students getting curious and excited about the missions of iGEM Foundations and the idea to combine cells with engineering and encoding.
Last November, after we had returned from Hongkong, we made a public speech in our school to report what we achieved, to share the feelings in the iGEM competition. After that, many students want to join us and make a contribution in the 2013-iGEM. We hope that our team will be inherited and become more and more influential.

2 . Corporation and share(with WHU&HZAU)

There are three teams in Huazhong district this year:HUST,WHU, HZAU. We have been keeping in contact ever since this April. There will be a comprehensive presentation in the mid of September, as what we are going to do in Hongkong.
We have a meeting with HZAU iGEM team on May 7, 2013. We shared our idea and help them to characterize their part BBa_K1228008 . They help us characterize our part BBa_ K1037000. We have a very happy cooperation.

3 . Crossword

We designed a crossword puzzle with knowledge about iGEM for the fun of all iGEMers,and to popularize these iGEM common knowledge.

Horizon

  1. This is one of the strongest team in Europe who won Grand Prize in the year of 2006,2008,2010 and 2012.
  2. This word can describe a common material in film electrophoresis. It can also describe a small space in a car or other transportation tools.
  3. iGEM began in January of 2003 with a month-long course at MIT during their Independent Activities Period (IAP). The students designed biological systems to make cells _____.
  4. iGEM spun out of MIT and has become an independent _________ organization since 2012.
  5. It is an international jamboree derived from a summer competition with 5 teams in 2004, 13 teams in 2005 - the first year that the competition grew internationally - 32 teams in 2006, 54 teams in 2007, 84 teams in 2008, 112 teams in 2009, 130 teams in 2010, and 165 teams in 2011.
  6. ____ is the first year that the team numbers exceed 200.
  7. All the teams joining in the competition come here to find an ______ for their talents and interests.
  8. ________ is the primary functional component in synthetic biology, all the teams deserving a medal in iGEM competition have made a contribution to their category.
  9. This is one of the strongest team in Europe who won Grand Prize in the year of 2006,2008,2010 and 2012.
  10. Vertical
  11. The first research to create a bacterial cell successfully with biochemical methods was published in _______, 20th May 2010.
  12. The iGEM Foundation fosters scientific ________ and education.
  13. The headquarters of iGEM office locates in _________, Massachusetts, USA.
  14. Projects range from a _______ of pigmented bacteria, to banana and wintergreen smelling bacteria, an arsenic biosensor, Bactoblood, and buoyant bacteria.
  15. This company has been one of the sponsors for seven years since 2007. The other sponsors are known as The Mathworks, The National Science Foundation and SynBERC.
  16. You can never get your research on business and be productive without speeding most of your time in ___.
  17. China joined in the iGEM in the year of ____.

Answer

Horizon:
1.SLOVENIA
2. CAB
3.BLINK
4.NONPROFIT
5.iGEM
6.2013
7.OUTLET
8.BIOBRICK

Vertical:
9.SCIENCE
10.RESEARCH
11.CAMBRIDGE
12.RAINBOW
13.GENEART
14.LAB
15.2007

Safty Form

1 . Would any of your parts or project ideas raise safety issues?

No,The biological material used in our project are E.coli K12 and B strain, which rank group 1 in safety risk according to the ABSA. The main idea of our project is to regulate the expression of enzymes in the pathway of propionate synthesis by gene clone. Maybe it will burden E.coli thallus itself, but less threaten to researchers, the public or the environment.
As we want to make the microbe in human’s intestine function the same way as E.coli do outside the body in the future work, a lot of condition difference need to be considered. Firstly, we should make sure that E.coli K12 will not cause any pathema when they work in the guts. Otherwise, we will transform the genes to another microbe that belongs to intestinal probiotics.
We have also thought about the crowd psychology about the medicine with live microbe. After a small surgery on the campus internet, we found that most of them were reluctant to use microbe as medicine. But if we give them the example of yoghourt, vinger and distiller's grains (a kind of chinese sweet food, like congee,by glutinous rice fermentation).

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

No, we do not believe that the BioBrick parts made this year raise any safety issues. Our biobrick parts consist of an operon encoding four enzymes in propionic acid synthesis pathways and synthetic gene oscillator. The four genes are all endogenous in the E.coli K12 and the function of biological oscillator has been demonstrated in the reference paper.

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

Yes, there is a non-official group constituted by safety officer in every laboratory. They supervise everything related to safety like sanitation, reagent consumption, instrument application and even personal dressing.They will record the improper behavior and point out to warn the staffs in the regular meeting every week.

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?

Better documentation and standardization of parts is required. And some safety analysis tools should be extensively incorporated into synthetic biology models. Through human practices project, exploring different perspectives of synthetic biology by asking members of the public, as well as iGEM participants.

Frequently Asked Question:
5.Do you seriously planning to let patients to take E.Coli into their bodies? Wouldn't it cause safety issues?

Yes, we plan to make our engineered cells oral-taking. But don't worry, we have designed a safety way. We decide to encapsulate them in a microencapsulation. The material of the microencapsulation is a semipermeable membrane, allowing small molecules such as propionate to get out of the encapsulation while not allowing the bacteria to get out of it due to its bigger size. In the end, the bacteria will be excreted in the stool along with the microencapsulation. Now we can keep propionate coming out periodically and bacteria from contacting human intestine. Problem solved!