Team:BU Wellesley Software/Outreach

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<br>
<br>
<h6>Outreach</h6>
<h6>Outreach</h6>
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JUMP TO...<br>
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<a href="#bu-wellesley_wiki_content">Top</a><br>
<a href="#bu-wellesley_wiki_content">Top</a><br>
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<a href="#overivew">Overview</a><br>
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<a href="#overview">Overview</a><br>
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<a href="#dnascrabble">DNA Scrabble</a><br>
<a href="#somerville">Somerville High School</a><br>
<a href="#somerville">Somerville High School</a><br>
<a href="#framingham">Framingham High School</a><br>
<a href="#framingham">Framingham High School</a><br>
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<a href="#dnascrabble">DNA Scrabble</a>
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<a href="#posters">Summer Poster Session</a>
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<h1>Somerville High School</h1>
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<br><br>
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<h1>Genekai - DNA Scrabble</h1>
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<h4>Description</h4>
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                         <p><strong>Genekai</strong> is a fun and educational board game that exposes the player to the world of synthetic biology. Players are given game pieces that represent biological parts and must use them to create valid biological circuits on the game board. The game board is filled with bonuses like ‘Double Gene’ and ‘Double Circuit’ which the player can strategically take advantage of.
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<h7><img style="float:center; width:400; height:200px" src="http://cs.wellesley.edu/~hcilab/iGEM_wiki/images/icons/Genkai-Piece-Descriptions.jpg"/><img style="float:right; width:350; height:315px" src="http://cs.wellesley.edu/~hcilab/iGEM_wiki/images/icons/gene-suppression.jpg"/></h7>
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<h4>Instructions</h4>
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<li>Each player puts down two pieces per turn.</li>
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<li>A valid circuit must contain a Promoter, RBS, any number of Genes, and a Terminator.</li>
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<li>The RBS gene multiplier multiplies the point values of all genes preceding the RBS.<img style="float:right; width:250; height:300px" src="http://cs.wellesley.edu/~hcilab/iGEM_wiki/images/icons/point-demonstration.jpg"/></li>
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<li>Player that completes a circuit receives points for the circuit.</li>
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<li>Bonuses will only be applied when the player claims a bonus square AND completes the circuit during the same turn.</li>
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<li>Genes come in color pairs, blue and red is paired and green and yellow is paired. When a player completes a circuit using part of another circuit and the genes in those circuits are colored pairs, the user receives points for both circuits.</li>
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<h1>Somerville High School</h1>
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                        <!-- Results content in here-->
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                        <p>Later this fall, we are scheduling a visit to Somerville High School, an extremely diverse urban school, to teach students about synthetic biology. We want to introduce students interested in science to the world of synthetic biology and, in particular, to our project. Through this outreach program, we also hope to interest students in pursuing higher education by demonstrating what we accomplished as undergraduate students over the course of the summer. 
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<br><br>
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<p>During our visit to SHS, we will give a presentation on synthetic biology and explain our project to students from both engineering and biotechnology courses. We will also play our DNA scrabble game to engage the students in a hands-on learning experience so they can understand how to put together genetic circuits from a pool of parts. Time permitting, we will also answer students' questions on what they can expect from college courses and to promote higher education to students who may not normally think attending college is within their grasp.
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<br><br>
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<p> This event is being organized with the SHS Science Department and, in particular, with Mr. Chris Angelli, the biotechnology teacher at SHS.
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<br><br>
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<p>Based on the success of our SHS visit, we will extend our outreach program to other Boston area schools with the help of Gretchen Fougere.
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<h1>Framingham High School</h1>
 
 
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                         <p>This summer, the we had two students from Framingham High School as part of our iGEM team. They each spent approximately 60 hours each working side-by-side with undergraduates.<br>
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<img style="float:right; width:280px; height:200px" src="http://cs.wellesley.edu/~hcilab/iGEM_wiki/images/alexandshamira.JPG"/> During this time, the students learned HTML, CSS, and Javascript. With these skills they created personal webpages. They moved on to learn Photoshop, Fireworks, and other creative suite applications. With these skills they created user interface design mock-ups and defined the future of the projects that were created and will be created in the lab. <br> During their time in the HCI lab, these students learned what Computer Science is all about. The possibilities of Computer Science and the many fields that use computer science, including Biology and Art, among others.
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<img style="width:400px; float:right; margin:5px;" src="http://cs.wellesley.edu/~hcilab/iGEM_wiki/images/alexandshamira.JPG"/>
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This summer, we partnered with the Wellesley College Science Outreach program and integrated two high-school students from the Framingham High School into our iGEM team, <a href="https://2011.igem.org/Team:BU_Wellesley_Software/Notebook/AlexNotebook">Alex's notebook</a>, <a href="http://cs.wellesley.edu/~hcilab/Shamira'sweb/about%20me.html">Shamira's website</a>. They each spent approximately 60 hours working side-by-side with undergraduate students. During this time, the students learned about Synthetic Biology and Computer Science. The students were introduced to the basics of computer programming through using HTML, CSS, and Javascript, joined us in observing our wet-lab team at work, and utilized various creative suite applications to create low-fidelity prototypes that in turn were evaluated with users. The students presented their work in the Wellesley Science Center poster session.
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                         <p>DNA Scrabble is a fun board game which exposes the player to the world of synthetic biology by allowing them to create genetic circuits. The game is played on a Scrabble like board with scatter bonuses like 'Double Gene' and 'Double Circuit' which the player can strategically take advantage of.
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                         <p>At the end of the summer research program, each student presented a poster summarizing the work they had done over the summer and explained it to the Wellesley College community and the Town of Wellesley.
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<br><br>
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                        <br>
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Students from Wellesley and Framingham High School also attended the presentations. Through this experience, we introduced Synthetic Biology, the iGEM competition, and the power of applying computational thinking to problem solving, to our community.
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<img style="width:800px;" src="http://cs.wellesley.edu/~hcilab/iGEM_wiki/images/summerpostersession.jpg"/>
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The goal is to score as many points as he/she can before the game pieces run out by completing genetic circuits which must follow a specific rule. For example, a valid circuit must contain a promoter, RBS, gene and terminator in this order. Player place 2 pieces (promoter, RBS, gene, or terminator) on the board each turn and get points for completing each circuit he/she creates. Each gene has a color, which is paired with another color (e.g., blue vs red) and the player gets points for his AND the opponent's circuit when he/she uses part of another circuit to create his own circuit and the colors are part of a pair (using part of a red gene circuit to make your blue gene circuit will grant you points for both circuits).
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This is to represent the fact that certain gene can turn on or off given the presence of another gene. The game will appeal to players of various age groups since there is much strategizing involved and no two games are the same.
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The goal behind this game is to allow students engage in an educational experience while having fun and learn about genetic circuits.
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Latest revision as of 18:38, 28 September 2011

BU-Wellesley iGEM Team: Outreach


Outreach

Overview

As the Boston University/Wellesley College iGEM team, one of our principle goals is to reach out to the young population in and around Boston and educate them about the exciting field of synthetic biology.

Our current plan is to formulate an outreach plan with Gretchen Fougere, Assistant Dean of Outreach and Diversity at the College of Engineering within Boston University. We realize that the future of synthetic biology is heavily dependent upon the future generation’s interest in the field. Our goal is to spark the interest of middle and high school students in synthetic biology through a short presentation and an interactive game. The presentation portion allows us to provide the students with a brief background in synthetic biology and gives them an opportunity to learn about the work that we have done over the summer.

The interactive game provides the students with a more hands-on approach to the design and construction of genetic circuits. Our version of Scrabble teaches students how to compose valid genetic circuits and learn about their interactions with one another. Through these activities we hope to encourage students to consider the possibility of entering the field of synthetic biology in the future.

We want them to see the current and potential future applications of this field and how rewarding a career in synthetic biology can be!



Genekai - DNA Scrabble

Description

Genekai is a fun and educational board game that exposes the player to the world of synthetic biology. Players are given game pieces that represent biological parts and must use them to create valid biological circuits on the game board. The game board is filled with bonuses like ‘Double Gene’ and ‘Double Circuit’ which the player can strategically take advantage of.

Instructions

  1. Each player puts down two pieces per turn.
  2. A valid circuit must contain a Promoter, RBS, any number of Genes, and a Terminator.
  3. The RBS gene multiplier multiplies the point values of all genes preceding the RBS.
  4. Player that completes a circuit receives points for the circuit.
  5. Bonuses will only be applied when the player claims a bonus square AND completes the circuit during the same turn.
  6. Genes come in color pairs, blue and red is paired and green and yellow is paired. When a player completes a circuit using part of another circuit and the genes in those circuits are colored pairs, the user receives points for both circuits.











Somerville High School

Later this fall, we are scheduling a visit to Somerville High School, an extremely diverse urban school, to teach students about synthetic biology. We want to introduce students interested in science to the world of synthetic biology and, in particular, to our project. Through this outreach program, we also hope to interest students in pursuing higher education by demonstrating what we accomplished as undergraduate students over the course of the summer.

During our visit to SHS, we will give a presentation on synthetic biology and explain our project to students from both engineering and biotechnology courses. We will also play our DNA scrabble game to engage the students in a hands-on learning experience so they can understand how to put together genetic circuits from a pool of parts. Time permitting, we will also answer students' questions on what they can expect from college courses and to promote higher education to students who may not normally think attending college is within their grasp.

This event is being organized with the SHS Science Department and, in particular, with Mr. Chris Angelli, the biotechnology teacher at SHS.

Based on the success of our SHS visit, we will extend our outreach program to other Boston area schools with the help of Gretchen Fougere.




Framingham High School

This summer, we partnered with the Wellesley College Science Outreach program and integrated two high-school students from the Framingham High School into our iGEM team, Alex's notebook, Shamira's website. They each spent approximately 60 hours working side-by-side with undergraduate students. During this time, the students learned about Synthetic Biology and Computer Science. The students were introduced to the basics of computer programming through using HTML, CSS, and Javascript, joined us in observing our wet-lab team at work, and utilized various creative suite applications to create low-fidelity prototypes that in turn were evaluated with users. The students presented their work in the Wellesley Science Center poster session.








Summer Poster Session

At the end of the summer research program, each student presented a poster summarizing the work they had done over the summer and explained it to the Wellesley College community and the Town of Wellesley.


Students from Wellesley and Framingham High School also attended the presentations. Through this experience, we introduced Synthetic Biology, the iGEM competition, and the power of applying computational thinking to problem solving, to our community.

Retrieved from "http://2011.igem.org/Team:BU_Wellesley_Software/Outreach"