Team:Macquarie Australia/Openday

From 2012.igem.org

(Difference between revisions)
Line 26: Line 26:
<p>
<p>
We included a station where younger children (or anyone who was interested!) could explore the concept of genes using Lego® blocks. This activity compared genes to Lego® bricks, and a poster (as shown below) explained that the infinite possible combinations that can be produced from a collection of these pieces can be viewed as a model for the infinite combinations of genetic information that are possible in nature and in synthetic biology.  
We included a station where younger children (or anyone who was interested!) could explore the concept of genes using Lego® blocks. This activity compared genes to Lego® bricks, and a poster (as shown below) explained that the infinite possible combinations that can be produced from a collection of these pieces can be viewed as a model for the infinite combinations of genetic information that are possible in nature and in synthetic biology.  
-
 
+
</p>
 +
<p>
 +
<h2>Micropipette practice</h2>
 +
</p>
 +
<p>
 +
We set up laboratory workspaces where secondary students and adults could learn and practice the use of micropipettes. Here we used instructional posters (as shown below) as well as ensuring that a member of our team was present at this station at all times to communicate the relevant safety information and to assist with the use of the pipettes.
 +
</p>
 +
<p>
 +
<h2><i>E. coli</i> viewing</h2>
 +
</p>
 +
<p>
 +
Light microscopes were set up where people were able to view E. coli cells in solution. Posters were included at this station to present information about these cells and their uses in synthetic biology, and our project in particular (as shown below).
 +
</p>
 +
<p>
 +
<h2>Information posters</h2>
 +
</p>
 +
<p>
 +
Posters were provided that outlined the fundamental principles of synthetic biology and how we are employing these in our project (as shown below).
 +
</p>
 +
<p>
 +
<h2>Fluorescent plates</h2>
 +
</p>
 +
<p>
 +
We supplied plates that demonstrated successful examples of gene cloning using fluorescent proteins. These provided an effective link to our project as well as allowing our audience to come into contact with a harmless (and fun!) example of gene cloning. Members of our team were present to explain how the plates had been produced and how the techniques and products of this process can be applied to “real-world” situations.
 +
</p>
</html>
</html>
{{MQgalleryopen}}
{{MQgalleryopen}}

Revision as of 01:38, 24 September 2012



Open Day

The Macquarie University Open Day on September 8 gave us an excellent opportunity to raise awareness of our project in the wider community. To take advantage of this, we developed an interactive exhibit where members of the public could learn about what we are seeking to do. We also aimed to challenge any negative connotations held by members of the public about synthetic biology and gene cloning, and the applications of these techniques.

We identified three main groups who would be our likely audience:

1. Senior high school students who were considering Macquarie University for tertiary study;

2. Parents and adult members of the public who were accompanying their children or considering postgraduate study;

3. Younger children who were accompanying family members.

In order to communicate effectively with each of these groups, we coordinated a range of activities that served to educate our audience about the field of synthetic biology and our project in particular.

The Lego of Life

We included a station where younger children (or anyone who was interested!) could explore the concept of genes using Lego® blocks. This activity compared genes to Lego® bricks, and a poster (as shown below) explained that the infinite possible combinations that can be produced from a collection of these pieces can be viewed as a model for the infinite combinations of genetic information that are possible in nature and in synthetic biology.

Micropipette practice

We set up laboratory workspaces where secondary students and adults could learn and practice the use of micropipettes. Here we used instructional posters (as shown below) as well as ensuring that a member of our team was present at this station at all times to communicate the relevant safety information and to assist with the use of the pipettes.

E. coli viewing

Light microscopes were set up where people were able to view E. coli cells in solution. Posters were included at this station to present information about these cells and their uses in synthetic biology, and our project in particular (as shown below).

Information posters

Posters were provided that outlined the fundamental principles of synthetic biology and how we are employing these in our project (as shown below).

Fluorescent plates

We supplied plates that demonstrated successful examples of gene cloning using fluorescent proteins. These provided an effective link to our project as well as allowing our audience to come into contact with a harmless (and fun!) example of gene cloning. Members of our team were present to explain how the plates had been produced and how the techniques and products of this process can be applied to “real-world” situations.