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Team:Utah State/Outreach
From 2013.igem.org
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<div style="margin-left: 5px;"><a href="https://2013.igem.org/Team:Utah_State/Outreach"><img src="https://static.igem.org/mediawiki/2013/9/94/OutreachText.png" onMouseOver="this.src='https://static.igem.org/mediawiki/2013/7/78/OutreachSqgl.png'" onMouseOut= "this.src='https://static.igem.org/mediawiki/2013/9/94/OutreachText.png'" width="245px" height="32px"></a></div> | <div style="margin-left: 5px;"><a href="https://2013.igem.org/Team:Utah_State/Outreach"><img src="https://static.igem.org/mediawiki/2013/9/94/OutreachText.png" onMouseOver="this.src='https://static.igem.org/mediawiki/2013/7/78/OutreachSqgl.png'" onMouseOut= "this.src='https://static.igem.org/mediawiki/2013/9/94/OutreachText.png'" width="245px" height="32px"></a></div> | ||
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| + | <a href="https://2013.igem.org/Team:Utah_State/Outreach#Engineering State">Engineering State</a> | ||
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| + | <a href="https://2013.igem.org/Team:Utah_State/Outreach#Discover BE">Discover Biological Engineering</a> | ||
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introduce them to the iGEM competition. | introduce them to the iGEM competition. | ||
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During the first session, students were shown a video of the Dan Rather Reports, which outlined | During the first session, students were shown a video of the Dan Rather Reports, which outlined | ||
the recent breakthroughs in synthetic biology, including a section on the 2012 iGEM | the recent breakthroughs in synthetic biology, including a section on the 2012 iGEM | ||
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ask the team questions. | ask the team questions. | ||
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For the second session, our team designed an activity to better teach the students the procedure | For the second session, our team designed an activity to better teach the students the procedure | ||
of creating biobricks using simple cloning techniques. Paper “bracelets” were made containing | of creating biobricks using simple cloning techniques. Paper “bracelets” were made containing | ||
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being produced. | being produced. | ||
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After this activity, the students were taken on a tour of our lab to walk them through each step of | After this activity, the students were taken on a tour of our lab to walk them through each step of | ||
the cloning process. Each station had preparations that could be shown to the tour group such as | the cloning process. Each station had preparations that could be shown to the tour group such as | ||
a spun down culture tube and a GFP producing spider silk agar plate. | a spun down culture tube and a GFP producing spider silk agar plate. | ||
<br> | <br> | ||
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After each session, a survey with a series of questions was handed out to the students to see what | After each session, a survey with a series of questions was handed out to the students to see what | ||
the thought of the activities. Approximately 61% of students claimed that they had a more | the thought of the activities. Approximately 61% of students claimed that they had a more | ||
Revision as of 23:14, 22 September 2013
One of the best opportunities to provide outreach to high school students is during the annual
Engineering State program held at Utah State University every June. This year, our team was
fortunate enough to lead sessions attended by over 140 students from five states. Two separate
sessions were set up to allow the students to learn more about synthetic biology as well as
introduce them to the iGEM competition.
During the first session, students were shown a video of the Dan Rather Reports, which outlined
the recent breakthroughs in synthetic biology, including a section on the 2012 iGEM
competition. The video was stopped periodically to ask the students questions and allow them to
ask the team questions.
For the second session, our team designed an activity to better teach the students the procedure
of creating biobricks using simple cloning techniques. Paper “bracelets” were made containing
either a spider silk gene sequence or a GFP gene sequence. The sequence was bookended by the
restriction sites EcoR1, Xba1, Spe1, and Pst1. Scissors were labeled with letters corresponding to
each restriction site and represented that restriction enzyme. Tape rolls were labeled to represent
ligase. The student’s goal was to create a construct with a spider silk unit followed by a GFP
insert. Once finished, it was explained how this process could be repeated to create longer silk
repeating constructs and how GFP was used as a reporter gene to allow us to tell if spider silk is
being produced.
After this activity, the students were taken on a tour of our lab to walk them through each step of
the cloning process. Each station had preparations that could be shown to the tour group such as
a spun down culture tube and a GFP producing spider silk agar plate.
After each session, a survey with a series of questions was handed out to the students to see what
the thought of the activities. Approximately 61% of students claimed that they had a more
favorable opinion of synthetic biology after attending our session. About 69% of students said
that they now had an interest in the iGEM competition. When asked what was the most useful
potential application for synthetic biology, most students answered that biomedical applications
were most useful. A more detailed chart from this response can be seen below.
Members of our team also participated in speaking to high school students at the 2013 Discover Biological Engineering program in July. Students interested in joining the Biological Engineering department at USU attend this event to learn more about the program. This event featured a series of talks of various topics led by faculty and students in the department. The USU iGEM team held a 1-hour session to talk about synthetic biology and the iGEM competition. Topics included a summary of synthetic biology, an overview of iGEM and USU’s participation in years past, and a discussion on this year’s project. Students were allowed time to
