Team:NTU-Taida/Human Practice

From 2012.igem.org

(Difference between revisions)
(initial)
Line 1: Line 1:
-
{{:Team:NTU-Taida/Templates/Header}}{{:Team:NTU-Taida/Templates/Navbar}}{{:Team:NTU-Taida/Templates/Sidebar}}{{:Team:NTU-Taida/Templates/ContentStart}}
+
{{:Team:NTU-Taida/Templates/Header}}{{:Team:NTU-Taida/Templates/Navbar}}{{:Team:NTU-Taida/Templates/Sidebar|Title=Single Cell Model}}{{:Team:NTU-Taida/Templates/ContentStart}}
-
{{:Team:NTU-Taida/Templates/BSHero|Title=Human Practice|Content=<p>Testing Hero</p>}}
+
{{:Team:NTU-Taida/Templates/BSHero|Title=Human Practice|Content=<p></p>}}
-
{{:Team:NTU-Taida/Templates/ContentEnd}}{{:Team:NTU-Taida/Templates/Footer|ActiveNavbar=Human Practice}}
+
==Introduction==
 +
Our team, Taida NTU, has been involved in outreaching synthetic biology and human practice so far. Be specific, we introduced bioengineering, biotech and iGEM competition to high school students, undergraduate medical students and doctors in. To spread the understanding of synthetic biology more efficiently, we established a blog sharing some news, reviews and our works. We also collaborated and discussed with other team in Taiwan and the US. Additionally, we surveyed the students’ and doctors’ interest in utilizing synthetic biology in medical routine and research. All these activities are summarized below:
 +
 
 +
==Goal==
 +
To outreach the concept of what synthetic biology is, and the understanding of how people apply synthetic biology to improve lives, and the awareness of all these advances’ physicochemical, medical and socio-ethical implications.
 +
 
 +
==How We Did It==
 +
During this summer, we shared our ideas and the iGEM competition to college and high school students who expressed interest in bioengineering and basic molecular biology. Several symposiums were held by Department of Life Science, Medicine, and Dentistry in NTU respectively where we gave a brief introduction of synthetic biology, its effects and implications, and presented some posters and PowerPoint about our design to the students. All the members could learn about the basic concepts of synthetic biology and could discuss their point of view to each other and to our team. Some of them mentioned their worries about utilizing synthetic biology in illegal use and some controversial implications, such as bio-weapon development, bioterrorism, GM food, and application of stem cells, etc. The students also spoke of potential risks including unwanted spreading and multiplication of transgenic microorganisms, environmental protection, and long-term side effect on human body which could not be detected in early stages.

Revision as of 17:02, 26 September 2012

Single Cell Model

Human Practice

Introduction

Our team, Taida NTU, has been involved in outreaching synthetic biology and human practice so far. Be specific, we introduced bioengineering, biotech and iGEM competition to high school students, undergraduate medical students and doctors in. To spread the understanding of synthetic biology more efficiently, we established a blog sharing some news, reviews and our works. We also collaborated and discussed with other team in Taiwan and the US. Additionally, we surveyed the students’ and doctors’ interest in utilizing synthetic biology in medical routine and research. All these activities are summarized below:

Goal

To outreach the concept of what synthetic biology is, and the understanding of how people apply synthetic biology to improve lives, and the awareness of all these advances’ physicochemical, medical and socio-ethical implications.

How We Did It

During this summer, we shared our ideas and the iGEM competition to college and high school students who expressed interest in bioengineering and basic molecular biology. Several symposiums were held by Department of Life Science, Medicine, and Dentistry in NTU respectively where we gave a brief introduction of synthetic biology, its effects and implications, and presented some posters and PowerPoint about our design to the students. All the members could learn about the basic concepts of synthetic biology and could discuss their point of view to each other and to our team. Some of them mentioned their worries about utilizing synthetic biology in illegal use and some controversial implications, such as bio-weapon development, bioterrorism, GM food, and application of stem cells, etc. The students also spoke of potential risks including unwanted spreading and multiplication of transgenic microorganisms, environmental protection, and long-term side effect on human body which could not be detected in early stages.