Team:MIT/HumanPractices

From 2012.igem.org

(Difference between revisions)
 
(72 intermediate revisions not shown)
Line 12: Line 12:
<!-- TODO: add pre/n buttons -->
<!-- TODO: add pre/n buttons -->
<script>
<script>
 +
document.title = "MIT iGEM - Human Practices";
$(document).ready(function(){
$(document).ready(function(){
 +
$('#nav_human_practices a').first().css('background-color','#333333');
  $('.section').css('display','none');
  $('.section').css('display','none');
 +
$('#header').css('display','inline');
  $('.col_list li').css('cursor','pointer');
  $('.col_list li').css('cursor','pointer');
-
  $('#b1bio').css('display','inline');
+
  //$('#b1bio').css('display','inline');
  $('.col_list li').hover(function() {
  $('.col_list li').hover(function() {
   $(this).css('background-color','#a3abae');
   $(this).css('background-color','#a3abae');
Line 22: Line 25:
  });
  });
-
   $("#accordion").accordion({ autoHeight: false });
+
   $("#accordion").accordion({ autoHeight: false, active: false });
   $('.col_list li').click(function () {
   $('.col_list li').click(function () {
Line 39: Line 42:
<div id="col_nav">
<div id="col_nav">
     <div id="accordion">
     <div id="accordion">
-
<h3><a href="#">Bacterial</a></h3>
 
-
<div class="col_list">
 
-
<ul>
 
-
    <li id="b1">Annealing Oligos</li>
 
-
    <li id="b2">BP Reaction</li>
 
-
            <li id="b3"> Capped Transcription Reaction Assembly</li>
 
-
            <li id="b4"> Cell Stock </li>
 
-
            <li id="b5"> Gel Extraction - QIAGEN</li>
 
-
            <li id="b6"> Gel Preparation </li>
 
-
            <li id="b7"> Golden Gate Reaction </li>
 
-
            <li id="b8"> Inoculation - Midiprep </li>
 
-
            <li id="b9"> Inoculation - Miniprep </li>
 
-
            <li id="b10"> LR Reaction </li>
 
-
            <li id="b11"> Midiprep QIAGEN </li>
 
-
            <li id="b12"> Miniprep QIAGEN </li>
 
-
            <li id="b13"> Nanodrop </li>
 
-
            <li id="b14"> PCR - Using PFX </li>
 
-
            <li id="b15"> Pouring LB Agar Plates </li>
 
-
            <li id="b16"> Restriction Mapping </li>
 
-
            <li id="b17"> Sequencing </li>
 
-
            <li id="b18"> Transformation </li>
 
-
        </ul>
 
-
      </div><!-- end bacterial -->
 
-
<h3><a href="#">In Vitro</a></h3>
+
 
 +
<h3><a href="#">Educational Initiatives</a></h3>
       <div class="col_list">
       <div class="col_list">
           <ul>
           <ul>
-
             <li id="iv1">Gate Anneals</li>
+
             <li id="stw1">Community Outreach </li>
-
             <li id="iv2">Plate Reader Studies</li>
+
             <li id="stw2">International Outreach </li>
-
             <li id="iv3">In Vitro Transcription - New England BioLabs </li>
+
             <li id="stw3">IAP Synthetic Biology Lab Class </li>
           </ul>
           </ul>
         </div><!-- end invitro-->
         </div><!-- end invitro-->
-
<h3><a href="#">Mammalian</a></h3>
+
<h3><a href="#">Collaboration</a></h3>
       <div class="col_list">
       <div class="col_list">
           <ul>
           <ul>
-
             <li id="m1"> DNA Transfection </li>
+
             <li id="c1">NEGEM </li>
-
             <li id="m2"> RNA Transfection </li>
+
             <li id="c2">Fellow iGEM Teams </li>
-
            <li id="m4"> Gelatin Pretreatment </li>
+
-
            <li id="m5"> Passaging Cells </li>
+
-
            <li id="m6"> Preparing Samples for Flow Cytometry </li>
+
-
            <li id="m7"> Cryopreservation </li>
+
           </ul>
           </ul>
         </div><!-- end mammalian-->
         </div><!-- end mammalian-->
-
<h3><a href="#">Instrumentation</a></h3>
 
-
 
-
      <div class="col_list">
 
-
          <ul>
 
-
            <li id="i1"> Microscopy </li>
 
-
            <li id="i2"> Flow Cytometry </li>
 
-
 
-
          </ul>
 
-
        </div><!-- instrumentation-->
 
</div>
</div>
Line 102: Line 70:
<div id="col_left">
<div id="col_left">
-
<div class= "section" id="placebio">
 
-
</div>
 
 +
 +
 +
<div class = "section" id = "stw1bio">
 +
<h1>Community Outreach</h1>
 +
<h3> HSSP Class</h3>
<br>
<br>
-
<br> <b> Internationalization Project of Synthetic Biology </b>
+
<img src='https://static.igem.org/mediawiki/2012/f/fd/FelixHSSP.png' style="width:250px">
-
<br>
+
<img src='https://static.igem.org/mediawiki/2012/8/8d/EerikHSSP.png' style="width:250px">
-
<br>
+
-
The Internationalization Project of Synthetic Biology (IPSB) is a collaborative project between MIT and Tel-Aviv University (TAU) that aims to introduce synthetic biology to Palestinians, promote it in Israel, and create a network of understanding Palestinian and Israeli leaders. It aims to do so by bringing together gifted Palestinian and Israeli high school students for three years, and teaching them the principles of bioengineering and bio-entrepreneurship. At the end of the third year, the students would present their technical project in iGEM’s high school contest, along with a business plan for commercializing it in iGEM;s entrepreneurial contest. Logistics of the program include sending MIT students would be sent to Tel-Aviv in the summer to teach the students, and TAU instructors would take over supervision throughout the academic year. The pilot program will run for one year (June 2013-June 2014), and hopefully a Palestinian-Israeli iGEM college team will be created in the future.
+
<br>
<br>
 +
We are passionate about sharing the exciting advances in research in the field of synthetic biology with young minds! On August 12, 2012, we taught a course on Synthetic Biology to local Boston middle-school students through the MIT Educational Studies Program. Our fun course included introducing the central dogma and basic molecular biology background information, teaching about cool circuit parts and simple molecular biology design tools, and interesting new applications of the research. Through our engaging course, we hope to have inspired these young minds to learn more about the field and to join us as members of the synthetic biology community some day!   
 +
 +
<h3>Splash! Class</h3>
 +
On November 17, 2012, we plan on teaching a course about Synthetic Biology to Cambridge and Boston high-school students. We hope to make a difference in the lives of a few future biologists by introducing them to tools, techniques, and exciting applications from the cutting edge of synthetic biology. Since this is for high-school students, we will be able to cover more difficult material. We're looking forward to it!
 +
 +
</div>
 +
 +
 +
 +
 +
 +
<div class = "section" id = "stw2bio">
 +
<h1>International Outreach Projects </h1>
 +
<h3> Internationalization Project of Synthetic Biology </h3>
 +
Our team has laid the foundations of the Internationalization Project of Synthetic Biology (IPSB), a collaborative project between MIT and Tel-Aviv University (TAU) that aims to introduce synthetic biology to Palestinian and Israeli high school students. The project seeks to educate these students in basic synthetic biology, bioengineering, and bio-entrepreneurship principles in a combined, collaborative setting. Over the course of three years, the students would work together to develop a technical project to present in the iGEM High School Contest, as well as a business plan to commercialize their proposed project to present in the iGEM Entrepreneurial Contest. The program would allow veteran MIT iGEM students to instruct the students in Tel-Aviv over the summers, and would have TAU instructors lead supervision during the academic year. The pilot program is proposed to run from (June 2013-June 2014), with the intent of creating a Palestinian-Israeli iGEM college-division team as well in the future. 
 +
</div>
 +
 +
 +
 +
 +
<div class = "section" id = "stw3bio">
 +
<h1>IAP Synthetic Biology Class</h1>
 +
<p>
 +
Last January, students from the 2011 MIT iGEM team ran an introductory synthetic biology class to recruit students for this year's program and to spread interest in the subject.  The class was offered during MIT's storied Independent Activities Period (IAP), a four-week gap period in MIT's academic calendar.  Over two weeks, students learned biological theory and basic lab techniques, and built an inducible luciferase circuit.  Several students in the class ended up joining the 2012 iGEM team.  We plan to offer this class again next year and are currently designing the curriculum.
 +
</p>
 +
<img src='https://static.igem.org/mediawiki/2012/2/2f/IAPClassData.png' width=400/>
 +
<br><i>Graph of fluorescence over time in student-constructed circuits</i>
 +
<p>
 +
<a href="http://web.mit.edu/iap/www/iap12/iap/nsbe.html">Course description</a>, and <a href="https://stellar.mit.edu/S/project/synbio-iap2011/materials.html"> course materials </a> are available.
 +
 +
</div>
 +
 +
 +
 +
 +
 +
<div class = "section" id = "c1bio">
 +
<h1> NEGEM </h1>
 +
<p>
 +
<img src="https://static.igem.org/mediawiki/2012/1/17/NEGEM.png" width=500/>
 +
</p>
 +
<p>
 +
We participated in the first New England Regional iGEM (NEGEM) meeting at Boston University! Hosted by the BU team on September 15, 2012, the NEGEM meeting allowed four local iGEM teams – Boston University, Wellesley, Brown-Stanford, and MIT – to practice presenting our respective projects in front of an audience. Each team received valuable anonymous feedback about their project and viewed presentations from members of the other three teams. We really appreciate the opportunity to have been a part of this collaborative experience!
 +
</p>
 +
<p>
 +
Learn more about NEGEM on the <a href="https://2012.igem.org/Team:BostonU/NEGEM"> BU iGEM team wiki</a>.
 +
</p>
 +
<p>
 +
<img src="https://static.igem.org/mediawiki/2012/4/44/Negem7.jpg" width=500/>
 +
<br />
 +
<i> Teams socializing at NEGEM.  Picture by the BU iGEM team.</i>
 +
</p>
 +
</div>
 +
 +
 +
 +
 +
 +
<div class = "section" id = "c2bio">
 +
<h1 id="collaboration"> Collaboration with Fellow iGEM Teams</h1>
 +
<h3>Wellesley</h3>
 +
<p>
 +
We collaborated with the Wellesley HCI team as beta-testers of their software! Check out <a href = "https://2012.igem.org/Team:Wellesley_HCI">their wiki</a>.  We got to play with Wellesley's touch screen MoClo planner software, on a large PixelSense-style screen (a.k.a. the old, pre-tablet Microsoft Surface).  MoClo planner makes the plasmid-building process easier by integrating research tools, computer aided design, and construction planning under one application.  Having experienced plasmid construction firsthand this summer, the MIT iGEM team wholeheartedly supports any efforts to make the task simpler.
 +
</p>
 +
<img src='https://static.igem.org/mediawiki/2012/c/ca/MITcollaborationwithWellesley.JPG' style="width:500px">
<br>
<br>
 +
<i> Two members of MIT's iGEM team with two members of Wellesley's iGEM team in an MIT conference room, testing Wellesley's MoClo planner. </i>
 +
<p>
 +
Several members of our team also tested <a href="http://www.synbiosearch.org/">SynBio Search</a>, Wellesley's semantic search website for synthetic biologists.
 +
</p>
 +
<p>
 +
In addition to testing their software, we also helped the Wellesley team by hosting Wellesley observers in our team meetings.  Through observing our team in action, the Wellesley team improved their understanding of what sorts of tools synthetic biologists need, and what challenges they face that can be solved by software.
 +
</p>
 +
 +
<h3>TU Munich</h3>
 +
Our team also participated in a survey run by TU Munich and received a collaboration medal from their team (shown below). Check out <a href = "https://2012.igem.org/Team:TU_Munich/Project/Overview">their wiki</a>.
<br>
<br>
-
<br> <b> Biosafety Research </b>
 
<br>
<br>
-
<br>
+
<img src='https://static.igem.org/mediawiki/2012/5/5a/TUM12_Collaboration_medal2.png' style="width:200px">
-
Our iGEM team has been considering the safety implications of synthetic biology research, with one member becoming directly involved in MIT’s Program on Emerging Technologies (PoET). His work was done under the supervision of professor Kenneth Oye, an MIT professor affiliated with both MIT’s political science department and Engineering Systems Division (ESD). This work was presented in a poster on one of the Synthetic Biology Engineering Research Center’s (SynBERC) retreats, and produced a literature review about the methods used to assess the competitiveness of engineered organisms should they be released to the outer environment. The review provided background knowledge for Oye’s group when organizing the conference “Beyond Containment: Assessing, Testing, and Demonstrating Safety On Release of Synbio Devices and Chassis,” which took place in the Woodrow Wilson International Center for Scholars, Washington DC, and was attended by members of government, academia, and industry.
+
</div>
-
 
+
-
 
+
 +
<div class="section" id="header">
 +
<h1>Overview</h1>
 +
<p>As representatives of the iGEM and synthetic biology communities, our team aims to serve as a positive influence locally and globally. We recognize significant broad impacts of our 2012 iGEM research project, both for fundamental advances in synthetic biology research and also for potential therapeutic applications stemming from our novel technology. Furthermore, we aim to promote a wider understanding of the synthetic biology field within the local and global communities and have organized several outreach and educational programs to accomplish this goal. Finally, we understand the importance of collaboration within the scientific community as a means of progress and have thus worked closely with fellow iGEM teams to foster positive connections and provide valuable assistance on their research projects.  </p><p>To promote understanding of synthetic biology, as a team we taught our favorite topics in synthetic biology to middle and high school students in the Boston area this year. We formulated plans for international iGEM outreach in Tel Aviv, and we are designing a course on synthetic biology lab techniques to teach at MIT in January. Lastly, we participated in a New England regional iGEM meet-up (NEGEM) with the Boston University, Wellesley and Stanford-Brown iGEM teams and have formally collaborated with fellow iGEM teams by testing their software.</p>
 +
</div>
</body>
</body>
</html>
</html>

Latest revision as of 22:54, 26 October 2012

iGEM 2012

Educational Initiatives

  • Community Outreach
  • International Outreach
  • IAP Synthetic Biology Lab Class

Collaboration

  • NEGEM
  • Fellow iGEM Teams

Community Outreach

HSSP Class



We are passionate about sharing the exciting advances in research in the field of synthetic biology with young minds! On August 12, 2012, we taught a course on Synthetic Biology to local Boston middle-school students through the MIT Educational Studies Program. Our fun course included introducing the central dogma and basic molecular biology background information, teaching about cool circuit parts and simple molecular biology design tools, and interesting new applications of the research. Through our engaging course, we hope to have inspired these young minds to learn more about the field and to join us as members of the synthetic biology community some day!

Splash! Class

On November 17, 2012, we plan on teaching a course about Synthetic Biology to Cambridge and Boston high-school students. We hope to make a difference in the lives of a few future biologists by introducing them to tools, techniques, and exciting applications from the cutting edge of synthetic biology. Since this is for high-school students, we will be able to cover more difficult material. We're looking forward to it!

International Outreach Projects

Internationalization Project of Synthetic Biology

Our team has laid the foundations of the Internationalization Project of Synthetic Biology (IPSB), a collaborative project between MIT and Tel-Aviv University (TAU) that aims to introduce synthetic biology to Palestinian and Israeli high school students. The project seeks to educate these students in basic synthetic biology, bioengineering, and bio-entrepreneurship principles in a combined, collaborative setting. Over the course of three years, the students would work together to develop a technical project to present in the iGEM High School Contest, as well as a business plan to commercialize their proposed project to present in the iGEM Entrepreneurial Contest. The program would allow veteran MIT iGEM students to instruct the students in Tel-Aviv over the summers, and would have TAU instructors lead supervision during the academic year. The pilot program is proposed to run from (June 2013-June 2014), with the intent of creating a Palestinian-Israeli iGEM college-division team as well in the future.

IAP Synthetic Biology Class

Last January, students from the 2011 MIT iGEM team ran an introductory synthetic biology class to recruit students for this year's program and to spread interest in the subject. The class was offered during MIT's storied Independent Activities Period (IAP), a four-week gap period in MIT's academic calendar. Over two weeks, students learned biological theory and basic lab techniques, and built an inducible luciferase circuit. Several students in the class ended up joining the 2012 iGEM team. We plan to offer this class again next year and are currently designing the curriculum.


Graph of fluorescence over time in student-constructed circuits

Course description, and course materials are available.

NEGEM

We participated in the first New England Regional iGEM (NEGEM) meeting at Boston University! Hosted by the BU team on September 15, 2012, the NEGEM meeting allowed four local iGEM teams – Boston University, Wellesley, Brown-Stanford, and MIT – to practice presenting our respective projects in front of an audience. Each team received valuable anonymous feedback about their project and viewed presentations from members of the other three teams. We really appreciate the opportunity to have been a part of this collaborative experience!

Learn more about NEGEM on the BU iGEM team wiki.


Teams socializing at NEGEM. Picture by the BU iGEM team.

Collaboration with Fellow iGEM Teams

Wellesley

We collaborated with the Wellesley HCI team as beta-testers of their software! Check out their wiki. We got to play with Wellesley's touch screen MoClo planner software, on a large PixelSense-style screen (a.k.a. the old, pre-tablet Microsoft Surface). MoClo planner makes the plasmid-building process easier by integrating research tools, computer aided design, and construction planning under one application. Having experienced plasmid construction firsthand this summer, the MIT iGEM team wholeheartedly supports any efforts to make the task simpler.


Two members of MIT's iGEM team with two members of Wellesley's iGEM team in an MIT conference room, testing Wellesley's MoClo planner.

Several members of our team also tested SynBio Search, Wellesley's semantic search website for synthetic biologists.

In addition to testing their software, we also helped the Wellesley team by hosting Wellesley observers in our team meetings. Through observing our team in action, the Wellesley team improved their understanding of what sorts of tools synthetic biologists need, and what challenges they face that can be solved by software.

TU Munich

Our team also participated in a survey run by TU Munich and received a collaboration medal from their team (shown below). Check out their wiki.