Difference between revisions of "Team:INSA-UPS France/test/description"

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   <div class="middle_container">
 
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   <div class="section_container">
  
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+
     <section style="margin-top:200px;">
    <section style="background:none;padding:0px !important;z-index:100; ">
+
      <h1 style="text-align: left;margin-top:-110px;font-size:5vw;letter-spacing: 1vw;">Education &amp; Public Engagement</h1>
      <h1 style="font-size:5vw;letter-spacing: 1vw;z-index:120;text-align: center;">Human Practices</h1>
+
      <p style="margin-top: 50px;">
 +
      We wanted to show that it is possible to talk about biology, science in general and ethics with people from all ages and with different knowledge. We articulated our outreach strategy around three actions: discover, practice and discuss, to empower citizens or future citizens about their capability of thinking and acting on science. These three milestones are essential for us to give people a better understanding of the current challenges of science in the society.
 +
      </p>
 
     </section>
 
     </section>
  
 +
    <section style="background: none;">
 +
      <img style="width:100%;" src="https://static.igem.org/mediawiki/2017/8/89/T--INSA-UPS_France--Engagement_mindmap.png" alt="">
 +
    </section>
 +
 +
    <section style="border: #ae3d3d solid 5px;">
 +
      <h1 style="color: #ae3d3d">Discover</h1>
 +
      <p>
 +
        The first question to be asked to popularise biology is <b>&ldquo;how to reach people?&rdquo;</b>
 +
      </p>
 +
      <p>
 +
        In order to make synthetic biology accessible to a wider audience, we had to adapt our speeches and supports to different people we have met. We had to find (workshops, card game...) to engage a young or non-scientific public in learning about different fields of biology.
 +
      </p>
 +
    </section>
 +
 +
    <section style="border: #3377a8 solid 5px;">
 +
      <h1 style="color: #3377a8">Practice</h1>
 +
      <p>
 +
        One of the most important thing in science is <b>scientific methods and experiments</b>. In order to give a better understanding of the globality of the scientific work, we thought it was a good idea to make people do lab experiments. Moreover, practising often results in scientific and ethical questioning.
 +
      </p>
 +
    </section>
 +
 +
    <section style="border: #b7cb67 solid 5px;">
 +
      <h1 style="color: #b7cb67">Discuss</h1>
 +
      <p>
 +
        Our biggest challenge is to <b>open up the debate</b> about synthetic biology, by bringing forward major scientific breakthrough but also showing that there is a need to think about ethical and technical limits. We want to address some controversial topics with the public such as limits and potentials of synthetic biology, ethics in science, GMOs legislation…
 +
      </p>
 +
    </section>
 +
 +
    <section>
 +
      <p>
 +
        As our project is about communication between microorganisms and it can be kind of scary for the general public, we wanted for our public engagement strategy to show how microbial diversity affects our world.
 +
      </p>
 +
      <p>
 +
        Click on one of the actions we took to see how we developed it in this aim.
 +
      </p>
 +
    </section>
  
 
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    <div class="overview_pe">
 
        
 
        
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+
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          <p>
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+
            We’ve been involved in schools classes, with children between the age of 7 and 11 years old in elementary schools.
 +
          </p>
 +
          <p>
 +
            The main goals of these interventions were the discovery of the biology and the research at school. Click here to know more!
 +
          </p>
 +
        </div>
 +
      </div>
 +
      <div class="pe_category_ov">
 +
        <div class="pe-category-inside" data-target="2">
 +
          <img src="https://static.igem.org/mediawiki/2017/2/2f/T--INSA-UPS_France--HP-Overview_PE_game.JPG.jpg" alt="">
 +
          <p>
 +
            While doing several interventions in schools is in our opinion clearly a nice way for pupils to ‘learn by doing’, we thought is was also a good idea to bring scientific knowledge outside of the classroom. That’s why we came up with the idea of creating a strategy card game about biology. Click here to know more!
 +
          </p>
 +
         </div>
 +
      </div>
 +
      <div class="pe_category_ov">
 +
        <div class="pe-category-inside" data-target="3">
 +
          <img src="https://static.igem.org/mediawiki/2017/d/dc/T--INSA-UPS_France--HP-Overview_PE_night.jpg" alt="">
 +
          <p>
 +
            This european event aims at sharing the state of the art research in multiple fields of science by interactive approaches. We tried to design a workshop to engage a discussion about the year’s theme (Impossible) to approach ethical aspects of biotechnologies in a clear and understandable way. Click here to know more!
 +
          </p>
 +
        </div>
 +
      </div>
 +
      <div class="pe_category_ov">
 +
        <div class="pe-category-inside" data-target="4">
 +
          <img src="https://static.igem.org/mediawiki/2017/1/18/T--INSA-UPS_France--HP-Overview_PE_conf.png" alt="">
 +
          <p>
 +
            After working during several months on synthetic biology for our iGEM project, we needed to organize an event to present our work and the one achieved by the previous iGEM teams. Click here to know more!
 +
          </p>
 +
        </div>
 +
      </div>
 +
      <div class="pe_category_ov">
 +
        <div class="pe-category-inside" data-target="5">
 +
          <img src="https://static.igem.org/mediawiki/2017/a/a2/T--INSA-UPS_France--HP-Overview_PE_high-school.jpg" alt="">
 +
          <p>
 +
            We wanted to show developing experimental strategies is an important part of the work of researchers, technicians and engineers, and is the foundation of every scientific reasoning. That&rsquo;s why we intervened in a high school to do a practical exercise with them. Click here to know more!
 +
          </p>
 +
         </div>
 +
      </div>
 +
      <div class="pe_category_ov">
 +
        <div class="pe-category-inside" data-target="6">
 +
          <img src="https://static.igem.org/mediawiki/2017/1/1f/T--INSA-UPS_France--HP-Overview_PE_exposciences.jpg" alt="">
 +
          <p>
 +
            We took part to &ldquo;Exposciences&rdquo; which is a scientific festival that took place on the 30th and 31th of May in Toulouse. This festival highlights youth projects by enabling them to present what they have done in relation with sciences, techniques and environnement. Click here to know more!
 +
          </p>
 +
        </div>
 +
      </div>
 +
      <div class="pe_category_ov">
 +
        <div class="pe-category-inside" data-target="7">
 +
          <img src="https://static.igem.org/mediawiki/2017/d/de/T--INSA-UPS_France--HP-Overview_PE_bib.jpg" alt="">
 +
          <p>
 +
            We realised that students of the scientific campus are not aware of iGEM-Toulouse projects, and in general of synthetic biology issues. So we organised exhibitions at INSA-Toulouse and Universit&eacute; Paul Sabatier library to highlight former iGEM-Toulouse project and potential of synthetic biology. Click here to know more!
 +
          </p>
 +
        </div>
 +
      </div>
 +
      <div class="pe_category_ov">
 +
        <div class="pe-category-inside" data-target="8">
 +
          <img src="T--INSA-UPS_France--Engagement_school3.JPG" alt="">
 +
          <p>
 +
            Lorem ipsum dolor sit amet, consectetur adipisicing elit. Sunt reprehenderit consequuntur nam non delectus. Voluptas, vero quibusdam animi dicta ipsa.
 +
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 +
        </div>
 +
      </div>
 +
 
 +
    </div>
 +
 
 +
 
 +
    <style>
 +
      /* CAROUSEL */
 +
 
 +
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 +
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 +
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 +
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+
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         width:100%;
+
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+
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+
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+
     
+
      /*@media*/
+
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+
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+
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+
 
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+
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         position:absolute;
+
 
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+
    <div class="category-content " id="6">
         right:15px;
+
    <section>
         z-index: 100;
+
       <h1>Exposciences</h1>
 +
      <p>
 +
         We took part to &ldquo;Exposciences&rdquo; which is a scientific festival that took place on the 30th and 31th of May in Toulouse. This festival highlights youth projects by enabling them to present what they have done in relation with sciences, techniques and environnement. It is an occasion to share, to talk about and to encourage scientific initiatives. During this event we made children extract banana DNA thanks to simple ingredients that they can find in their kitchen. We also discussed with them about microorganisms thanks to paper fortune teller and this support led them to be curious on the microscopic world around them. As a mixed team, we tried during our interactions to encourage girls to participate as much as boys so that they gain confidence in themselves and in what they are capable of. This exposure was a good opportunity to get in touch with a public encline to hear more about our project, and to introduce our strategy for the first time. Furthermore this event was a good way for us to test our survey about cholera to measure the level of knowledge that the public has on this matter and to raise awareness concerning this disease.
 +
      </p>
 +
      <div class="carousel w400 center">
 +
         <div class="indicators">
 +
          <div class="active" id="ind_img1"></div>
 +
          <div id="ind_img2"></div>
 +
          <div id="ind_img3"></div>
 +
          <div id="ind_img4"></div>
 +
        </div>
 +
        <img src="https://static.igem.org/mediawiki/2017/f/fb/T--INSA-UPS_France--Engagement-Exposciences_1.jpg" alt="" class="active" id="img1" data-target="img2">
 +
         <img src="https://static.igem.org/mediawiki/2017/9/9f/T--INSA-UPS_France--Engagement-Exposciences_2.jpg" alt="" id="img2" data-target="img3">
 +
        <img src="https://static.igem.org/mediawiki/2017/b/b9/T--INSA-UPS_France--Engagement-Exposciences_3.jpg" alt="" id="img3" data-target="img4">
 +
        <img src="https://static.igem.org/mediawiki/2017/e/e4/T--INSA-UPS_France--Engagement-Exposciences_4.jpg" alt="" id="img4" data-target="img1">       
 +
      </div>
 +
 
 +
    </section>
 +
    </div>
 +
 
 +
    <!-- *********** -->
 +
    <!-- *********** -->
 +
    <!-- S C H O O L -->
 +
    <!-- *********** -->
 +
    <!-- *********** -->
 +
 
 +
    <div class="category-content visible" id="1">
 +
    <section>
 +
      <h1>School Education</h1>
 +
      <p>
 +
        We&rsquo;ve been involved in schools classes, with children between the age of 7 and 11 years old in elementary schools.
 +
      </p>
 +
      <p>
 +
         The main goals of these interventions were the <b>discovery of  biology and research at school</b> with two workshops: <b>Microorganisms and their environment</b> and <b>growth of microorganisms</b> on a Petri dish.
 +
      </p>
 +
      <p>
 +
        Our motivation was to share our passion and knowledge about biology and to raise curiosity of the pupils about microorganisms. We were also very interested in seeing what representation children have on microorganisms, helping them improving their knowledge about microorganisms and discussing about benefits and risks of microorganisms on our health.
 +
      </p>
 +
      <p>
 +
        We worked with Mrs. Matricon, Mrs Bach and Mrs. Durand, respectively teachers at  &ldquo;Lakanal&rdquo; and &ldquo;Patte d&rsquo;Oie&rdquo; schools in Toulouse.
 +
      </p>
 +
      <div class="carousel center w500" >
 +
 
 +
          <div class="indicators">
 +
            <div class="active" id="ind_img6"></div>
 +
            <div id="ind_img7"></div>
 +
            <div id="ind_img8"></div>
 +
            <div id="ind_img9"></div>
 +
          </div>
 +
 
 +
          <img src="https://static.igem.org/mediawiki/2017/6/60/T--INSA-UPS_France--Engagement_school1.JPG" alt="" class="active" id="img6" data-target="img7">
 +
          <img src="https://static.igem.org/mediawiki/2017/7/79/T--INSA-UPS_France--Engagement_school2.JPG" alt="" id="img7" data-target="img8">
 +
          <img src="https://static.igem.org/mediawiki/2017/4/40/T--INSA-UPS_France--Engagement_school3.JPG" alt="" id="img8" data-target="img9">
 +
          <img src="https://static.igem.org/mediawiki/2017/b/bd/T--INSA-UPS_France--Engagement_school4.JPG" alt="" id="img9" data-target="img6">   
 +
      </div>
 +
    </section>
 +
 
 +
    <h1>Our interventions in Toulouse</h1>
 +
 
 +
    <style>
 +
      .school-subcat{
 +
        padding:0;
 +
        overflow: hidden;
 
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+
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+
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+
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 +
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+
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+
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+
    </style>
  
         width:24%;
+
    <section class="school-subcat">
         display: inline-block;
+
      <h1>Rising curiosity</h1>
         vertical-align: top;
+
      <p>
 +
        The introduction step was led by the teacher one week before the intervention. It is dedicated to give a meaning to further teaching, to motivate the pupils, to rise their curiosity, to provoke their amazement and their desire to know.
 +
      </p>
 +
      <p>
 +
        4 types of introduction are possible (see the diagram).
 +
      </p>
 +
      <p>
 +
         For our pedagogical project, the observation and the technical challenges were appropriated. For instance, here are some scenarii to introduce microorganisms: why is it important to wash hands before eating? Why are we sick? How can we observe microorganisms?
 +
      </p>
 +
    </section>
 +
 
 +
    <section class="school-subcat">
 +
      <h1>Emergence of questionnements</h1>
 +
      <p>
 +
         The goal is to set up a transition between amazement and reflection in order to involve the pupils in an investigation and research procedure. A bunch of questions results from this step, so the teacher will organise, regroup and sometimes refute them to enable the emergence of a problem or a situation. The main questions were:
 +
      </p>
 +
    </section>
 +
    <section class="child-question">
 +
      How to know if the microorganisms are present somewhere?
 +
    </section>
 +
    <section class="child-question">
 +
        How to see them?
 +
    </section>
 +
    <section class="child-question">
 +
        Where can me find them?
 +
    </section>
 +
    <section class="child-question">
 +
        What is the purpose of a microorganism?
 +
    </section>
 +
 
 +
    <section class="school-subcat">
 +
      <h1>A first representation of micro-organisms</h1>
 +
      <p>
 +
        The representations are the ideal way to figure out the knowledge of the pupils thanks to their experience of the real world, their social and affective life. Those representations provide the first answer given by the pupils to investigation questions.
 +
      </p>
 +
      <p>
 +
        A representation is also a structure that contributes to integrate new learning. Those structures had to be transformed so that the pupils better appropriate/benefit from the world. According to Piaget those transformations are called &ldquo;accommodation&rdquo; (Depover, Christian et al.:  <a href=" http://ute.umh.ac.be/dutice/uv6a/">Les mod&egrave;les d'enseignement et d'apprentissage</a>).
 +
      </p>
 +
      <p>
 +
         We analysed the representations to figure out how to overcome the possible difficulties and obstacles that could occur during session.
 +
      </p>
 +
      <h2>
 +
        Analysis of the representations
 +
      </h2>
 +
      <p>
 +
        This work is based on the work of three classes of two schools of CE2, CM1 and CM2 (equivalent to 3th to 5th US grade) for a total amount of 72 pupils. The pupils had to draw a microbe and answer 3 questions: Where can we find microbes? What do they do? How to see them?
 +
      </p>
 +
    </section>
 +
 
 +
    <style>
 +
      .black-board{
 +
        background-color:#0c343d;
 +
        color:white;
 
         text-align: center;
 
         text-align: center;
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        width:200px;
 
        height:200px;
 
 
       }
 
       }
 
     </style>
 
     </style>
 +
    <section class="black-board">
 +
      Where can we find microbes?
 +
    </section>
 +
 +
    <section class="child-question">Everywhere!</section>
 +
    <section class="child-question">All arount the world!</section>
 +
    <section class="child-question">If we don't wash our hands</section>
 +
    <section class="child-question">Inside our body</section>
 +
    <section class="child-question">On things that are dirty</section>
 +
    <section class="child-question">In the trash</section>
 +
 +
    <section class="black-board">
 +
      What is their purpose?
 +
    </section>
 +
    <section class="child-question">
 +
      They are responsible for diseases like the flu, chest cold, gastroenteritis, dog rabies, pox.
 +
    </section>
 +
    <section class="child-question">
 +
      Some good microorganisms can help to heal diseases.
 +
    </section>
 +
    <section class="child-question">
 +
      There are good microorganisms that do not cause disease and help the body by &ldquo;cleaning kidney intestine&rdquo;.
 +
    </section>
 +
 +
 +
  </div>
 +
 +
    <!-- *********** -->
 +
    <!-- ***end***** -->
 +
    <!-- ***schools* -->
 +
    <!-- *********** -->
  
 +
    <div class="category-content " id="5">
 
     <section>
 
     <section>
       <h1>Human Practices Logbook</h1>
+
       <h1>High school lab</h1>
        <p>
+
      <p>
          We did a Human Practices logbook and built an ethical matrix in order to think about ethics inside the globality of our projet, for every aspect of it.
+
        The everyday work of scientists in their lab can be hard to picture for high schoolers because it can be quite different from what they normally do in class. Biotechnologies, synthetic biology and lab safety aren&rsquo;t usually pointed out in a general science class of a French high schooler. Moreover, we wanted to show developing experimental strategies is an important part of the work of researchers, technicians and engineers, and is the foundation of every scientific reasoning. That&rsquo;s why we intervened in a high school to do a practical exercise with them, in addition to introducing our project as an example of a synthetic biology application. As university and engineering school students, we also thought we could share our academic background with them and maybe inspire them to pursue a scientific career. 
        </p>
+
      </p>
 
     </section>
 
     </section>
 +
    </div>
  
     <section id="pe">
+
     <div class="category-content " id="2">
      <h1>Public Engagement &amp; Education</h1>
+
    <section>
        <div>
+
      <h1>Card game</h1>
          <div class="pe_img">
+
      <p>
            <img src="https://static.igem.org/mediawiki/2017/8/86/T--INSA-UPS_France--HP-Overview_PE_school.jpg" alt="">
+
        While doing several interventions in schools is in our opinion clearly a nice way for pupils to &lsquo;learn by doing&rsquo;, we thought is was also a good idea to bring scientific knowledge outside of the classroom. That&rsquo;s why we came up with the idea of creating a strategy card game about biology. With this game, we are hoping to draw attention to the hidden world of microorganisms and make it visible elsewhere than on the bench of a scientist or inside a biology student&rsquo;s notebook. Instead of making biology facts an opportunity to create a game, we really wanted to integrate ours in an educational approach and took the game as a nice way to talk about our field of study. Many games already exist on the subject (<i>Strain, Gusty, Bacteria Combat, Healing Blade, &hellip;</i>) but they are mainly about antibiotics resistance whereas we wanted to bring something new by presenting some biotechnology notions of DNA and plasmids. 
            <p>Intervene in primary schools</p>
+
      </p>
          </div>
+
      <p>
          <div class="pe_img">
+
        The card game was indeed designed to get people to understand microbiology and synthetic biology by a playful approach. It is meant to be accessible to a large audience.   We created this card game in collaboration with game design students to get an attractive product we can share with as many people as possible. They also gave us a unique point of view by being both insiders of the game conception and having no advanced education in science. We thus tested it gradually with the help of scientists and general public to improve the gameplay so that it can be both fun and scientifically accurate.  
            <img src="https://static.igem.org/mediawiki/2017/2/2f/T--INSA-UPS_France--HP-Overview_PE_game.JPG.jpg" alt="">
+
      </p>
            <p>Create of a card game about microbiology</p>
+
      <p>
          </div>
+
         We are aware that our game can raise interrogations about the genetic engineering of living organisms, as the player acts as a bacteria colony attacking others and can grow in strength by integrating plasmids. The main goal of our card game is to provide basic knowledge and vocabulary about biology to a young or a general audience so that they can later form an opinion for themselves. We therefore hope that this way we would succeed in engaging a discussion about science in society, and unleash the player’s curiosity about microbiology.
          <div class="pe_img">
+
      </p>
            <img src="https://static.igem.org/mediawiki/2017/d/dc/T--INSA-UPS_France--HP-Overview_PE_night.jpg" alt="">
+
            <p>Participate in the European Researcher's Nigh</p>
+
          </div>
+
          <div class="pe_img">
+
            <img src="https://static.igem.org/mediawiki/2017/1/18/T--INSA-UPS_France--HP-Overview_PE_conf.png" alt="">
+
            <p>Leading a conference about the future of synthetic biology</p>
+
          </div>
+
          <div class="pe_img">
+
            <img src="https://static.igem.org/mediawiki/2017/a/a2/T--INSA-UPS_France--HP-Overview_PE_high-school.jpg" alt="">
+
            <p>Inspire high schoolers to pursue a scientific career</p>
+
          </div>
+
          <div class="pe_img">
+
            <img src="https://static.igem.org/mediawiki/2017/1/1f/T--INSA-UPS_France--HP-Overview_PE_exposciences.jpg" alt="">
+
            <p>Show fun experiments to children</p>
+
          </div>         
+
          <div class="pe_img">
+
            <img src="https://static.igem.org/mediawiki/2017/d/de/T--INSA-UPS_France--HP-Overview_PE_bib.jpg" alt="">
+
            <p>Exhibitions on campus for future iGEMers</p>
+
          </div>
+
          <div class="pe_img">
+
            <img src="https://static.igem.org/mediawiki/2017/d/de/T--INSA-UPS_France--HP-Overview_PE_bib.jpg" alt="">
+
            <p>Communicate to local and national press</p>
+
          </div>
+
         </div>
+
        <p>
+
          We wanted to show that it is possible to talk about biology, science in general and ethics with people from all ages and with different knowledge. We articulated our outreach strategy around three actions: discover, practice and discuss, to empower citizens or future citizens about their capability of thinking and acting on science. These three milestones are essential for us to give people a better understanding of the current challenges of science in the society.
+
        </p>
+
 
     </section>
 
     </section>
 +
    </div>
  
     <section class="member_name">
+
 
       <h1>Microbioworld</h1>
+
     <div class="category-content " id="3">
 +
    <section>
 +
       <h1>Researcher's night</h1>
 +
      <p>
 +
        This european event aims at sharing the state of the art research in multiple fields of science by interactive approaches to encourage the general public to get interest in science, to gain a bit of knowledge and hopefully get enthusiastic about today&rsquo;s crucial stakes. We tried to design a workshop to engage a discussion about the year&rsquo;s theme (Impossible) to approach ethical aspects of biotechnologies in a clear and understandable way. We also wanted to confront our project to a large public, so we can have a feedback about their thoughts on the synthetic biological approach and the use of GMOs.
 +
      </p>
 
     </section>
 
     </section>
     <section class="member">
+
     </div>
      <div class="img-ov">
+
 
        <img src="https://static.igem.org/mediawiki/2017/2/2f/T--INSA-UPS_France--HP-Overview_PE_game.JPG.jpg" alt="" >
+
    <div class="category-content " id="7">
      </div>    
+
    <section>
       <div class="member-text">
+
       <h1>Campus exhibitions</h1>
        <p>
+
      <p>
          While doing several interventions in schools is in our opinion clearly a nice way for pupils to &lsquo;learn by doing&rsquo;, we thought is was also a good idea to bring scientific knowledge outside of the classroom. That&rsquo;s why we came up with the idea of creating a strategy card game about biology. With this game, we are hoping to draw attention to the hidden world of microorganisms and make it visible elsewhere than on the bench of a scientist or inside a biology student&rsquo;s notebook.
+
        We realised that students of the scientific campus are not aware of iGEM-Toulouse projects, and in general of synthetic biology issues. So we organised exhibitions at INSA-Toulouse and Université Paul Sabatier library to highlight former iGEM-Toulouse project and potential of synthetic biology. In order to make iGEM project understandable for all scientist student (and not only for biologists), we redesigned posters of previous project E. calculus, SubtiTree, ApiColi, Paleotilis, and of our project Croc’n Cholera.  
        </p>
+
      </p>
      </div>
+
 
     </section>
 
     </section>
 +
    </div>
 
      
 
      
 
+
    <div class="category-content " id="4">
     <section >
+
     <section>
       <h1>Integrated Human Practices</h1>
+
       <h1>Conference</h1>
        <p>
+
      <p>
          We expand our Silver Human Practices activity and went further in the exploitation of our ethical matrix by including it in the life cycle of our device.
+
        After working during several months on synthetic biology for our iGEM project, we needed to organize an event to present our work and the one achieved by the previous iGEM teams. We also wanted to have an exchange of opinions with people who possibly have different values and considerations than us. The intended public was mainly composed of the Paul Sabatier university and INSA Toulouse students, two of the schools we are intending.  
        </p>
+
      </p>
 
     </section>
 
     </section>
      
+
     </div>
  
  </div>
+
    <!-- fin section -->  
  
 
   </div>
 
   </div>
Line 349: Line 620:
 
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   </div>
 
   </main>
 
   </main>
 +
 +
  
 
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    // au click
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    $(".carousel img").click(function(){
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<script type="text/javascript">
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{{INSA-UPS_France/Header_script}}

Revision as of 21:39, 6 October 2017

Croc'n Cholera
iGEM UPS-INSA Toulouse 2017

Education & Public Engagement

We wanted to show that it is possible to talk about biology, science in general and ethics with people from all ages and with different knowledge. We articulated our outreach strategy around three actions: discover, practice and discuss, to empower citizens or future citizens about their capability of thinking and acting on science. These three milestones are essential for us to give people a better understanding of the current challenges of science in the society.

Discover

The first question to be asked to popularise biology is “how to reach people?”

In order to make synthetic biology accessible to a wider audience, we had to adapt our speeches and supports to different people we have met. We had to find (workshops, card game...) to engage a young or non-scientific public in learning about different fields of biology.

Practice

One of the most important thing in science is scientific methods and experiments. In order to give a better understanding of the globality of the scientific work, we thought it was a good idea to make people do lab experiments. Moreover, practising often results in scientific and ethical questioning.

Discuss

Our biggest challenge is to open up the debate about synthetic biology, by bringing forward major scientific breakthrough but also showing that there is a need to think about ethical and technical limits. We want to address some controversial topics with the public such as limits and potentials of synthetic biology, ethics in science, GMOs legislation…

As our project is about communication between microorganisms and it can be kind of scary for the general public, we wanted for our public engagement strategy to show how microbial diversity affects our world.

Click on one of the actions we took to see how we developed it in this aim.

We’ve been involved in schools classes, with children between the age of 7 and 11 years old in elementary schools.

The main goals of these interventions were the discovery of the biology and the research at school. Click here to know more!

While doing several interventions in schools is in our opinion clearly a nice way for pupils to ‘learn by doing’, we thought is was also a good idea to bring scientific knowledge outside of the classroom. That’s why we came up with the idea of creating a strategy card game about biology. Click here to know more!

This european event aims at sharing the state of the art research in multiple fields of science by interactive approaches. We tried to design a workshop to engage a discussion about the year’s theme (Impossible) to approach ethical aspects of biotechnologies in a clear and understandable way. Click here to know more!

After working during several months on synthetic biology for our iGEM project, we needed to organize an event to present our work and the one achieved by the previous iGEM teams. Click here to know more!

We wanted to show developing experimental strategies is an important part of the work of researchers, technicians and engineers, and is the foundation of every scientific reasoning. That’s why we intervened in a high school to do a practical exercise with them. Click here to know more!

We took part to “Exposciences” which is a scientific festival that took place on the 30th and 31th of May in Toulouse. This festival highlights youth projects by enabling them to present what they have done in relation with sciences, techniques and environnement. Click here to know more!

We realised that students of the scientific campus are not aware of iGEM-Toulouse projects, and in general of synthetic biology issues. So we organised exhibitions at INSA-Toulouse and Université Paul Sabatier library to highlight former iGEM-Toulouse project and potential of synthetic biology. Click here to know more!

Lorem ipsum dolor sit amet, consectetur adipisicing elit. Sunt reprehenderit consequuntur nam non delectus. Voluptas, vero quibusdam animi dicta ipsa.

Exposciences

We took part to “Exposciences” which is a scientific festival that took place on the 30th and 31th of May in Toulouse. This festival highlights youth projects by enabling them to present what they have done in relation with sciences, techniques and environnement. It is an occasion to share, to talk about and to encourage scientific initiatives. During this event we made children extract banana DNA thanks to simple ingredients that they can find in their kitchen. We also discussed with them about microorganisms thanks to paper fortune teller and this support led them to be curious on the microscopic world around them. As a mixed team, we tried during our interactions to encourage girls to participate as much as boys so that they gain confidence in themselves and in what they are capable of. This exposure was a good opportunity to get in touch with a public encline to hear more about our project, and to introduce our strategy for the first time. Furthermore this event was a good way for us to test our survey about cholera to measure the level of knowledge that the public has on this matter and to raise awareness concerning this disease.

School Education

We’ve been involved in schools classes, with children between the age of 7 and 11 years old in elementary schools.

The main goals of these interventions were the discovery of biology and research at school with two workshops: Microorganisms and their environment and growth of microorganisms on a Petri dish.

Our motivation was to share our passion and knowledge about biology and to raise curiosity of the pupils about microorganisms. We were also very interested in seeing what representation children have on microorganisms, helping them improving their knowledge about microorganisms and discussing about benefits and risks of microorganisms on our health.

We worked with Mrs. Matricon, Mrs Bach and Mrs. Durand, respectively teachers at “Lakanal” and “Patte d’Oie” schools in Toulouse.

Our interventions in Toulouse

Rising curiosity

The introduction step was led by the teacher one week before the intervention. It is dedicated to give a meaning to further teaching, to motivate the pupils, to rise their curiosity, to provoke their amazement and their desire to know.

4 types of introduction are possible (see the diagram).

For our pedagogical project, the observation and the technical challenges were appropriated. For instance, here are some scenarii to introduce microorganisms: why is it important to wash hands before eating? Why are we sick? How can we observe microorganisms?

Emergence of questionnements

The goal is to set up a transition between amazement and reflection in order to involve the pupils in an investigation and research procedure. A bunch of questions results from this step, so the teacher will organise, regroup and sometimes refute them to enable the emergence of a problem or a situation. The main questions were:

How to know if the microorganisms are present somewhere?
How to see them?
Where can me find them?
What is the purpose of a microorganism?

A first representation of micro-organisms

The representations are the ideal way to figure out the knowledge of the pupils thanks to their experience of the real world, their social and affective life. Those representations provide the first answer given by the pupils to investigation questions.

A representation is also a structure that contributes to integrate new learning. Those structures had to be transformed so that the pupils better appropriate/benefit from the world. According to Piaget those transformations are called “accommodation” (Depover, Christian et al.: Les modèles d'enseignement et d'apprentissage).

We analysed the representations to figure out how to overcome the possible difficulties and obstacles that could occur during session.

Analysis of the representations

This work is based on the work of three classes of two schools of CE2, CM1 and CM2 (equivalent to 3th to 5th US grade) for a total amount of 72 pupils. The pupils had to draw a microbe and answer 3 questions: Where can we find microbes? What do they do? How to see them?

Where can we find microbes?
Everywhere!
All arount the world!
If we don't wash our hands
Inside our body
On things that are dirty
In the trash
What is their purpose?
They are responsible for diseases like the flu, chest cold, gastroenteritis, dog rabies, pox.
Some good microorganisms can help to heal diseases.
There are good microorganisms that do not cause disease and help the body by “cleaning kidney intestine”.

High school lab

The everyday work of scientists in their lab can be hard to picture for high schoolers because it can be quite different from what they normally do in class. Biotechnologies, synthetic biology and lab safety aren’t usually pointed out in a general science class of a French high schooler. Moreover, we wanted to show developing experimental strategies is an important part of the work of researchers, technicians and engineers, and is the foundation of every scientific reasoning. That’s why we intervened in a high school to do a practical exercise with them, in addition to introducing our project as an example of a synthetic biology application. As university and engineering school students, we also thought we could share our academic background with them and maybe inspire them to pursue a scientific career.

Card game

While doing several interventions in schools is in our opinion clearly a nice way for pupils to ‘learn by doing’, we thought is was also a good idea to bring scientific knowledge outside of the classroom. That’s why we came up with the idea of creating a strategy card game about biology. With this game, we are hoping to draw attention to the hidden world of microorganisms and make it visible elsewhere than on the bench of a scientist or inside a biology student’s notebook. Instead of making biology facts an opportunity to create a game, we really wanted to integrate ours in an educational approach and took the game as a nice way to talk about our field of study. Many games already exist on the subject (Strain, Gusty, Bacteria Combat, Healing Blade, …) but they are mainly about antibiotics resistance whereas we wanted to bring something new by presenting some biotechnology notions of DNA and plasmids.

The card game was indeed designed to get people to understand microbiology and synthetic biology by a playful approach. It is meant to be accessible to a large audience. We created this card game in collaboration with game design students to get an attractive product we can share with as many people as possible. They also gave us a unique point of view by being both insiders of the game conception and having no advanced education in science. We thus tested it gradually with the help of scientists and general public to improve the gameplay so that it can be both fun and scientifically accurate.

We are aware that our game can raise interrogations about the genetic engineering of living organisms, as the player acts as a bacteria colony attacking others and can grow in strength by integrating plasmids. The main goal of our card game is to provide basic knowledge and vocabulary about biology to a young or a general audience so that they can later form an opinion for themselves. We therefore hope that this way we would succeed in engaging a discussion about science in society, and unleash the player’s curiosity about microbiology.

Researcher's night

This european event aims at sharing the state of the art research in multiple fields of science by interactive approaches to encourage the general public to get interest in science, to gain a bit of knowledge and hopefully get enthusiastic about today’s crucial stakes. We tried to design a workshop to engage a discussion about the year’s theme (Impossible) to approach ethical aspects of biotechnologies in a clear and understandable way. We also wanted to confront our project to a large public, so we can have a feedback about their thoughts on the synthetic biological approach and the use of GMOs.

Campus exhibitions

We realised that students of the scientific campus are not aware of iGEM-Toulouse projects, and in general of synthetic biology issues. So we organised exhibitions at INSA-Toulouse and Université Paul Sabatier library to highlight former iGEM-Toulouse project and potential of synthetic biology. In order to make iGEM project understandable for all scientist student (and not only for biologists), we redesigned posters of previous project E. calculus, SubtiTree, ApiColi, Paleotilis, and of our project Croc’n Cholera.

Conference

After working during several months on synthetic biology for our iGEM project, we needed to organize an event to present our work and the one achieved by the previous iGEM teams. We also wanted to have an exchange of opinions with people who possibly have different values and considerations than us. The intended public was mainly composed of the Paul Sabatier university and INSA Toulouse students, two of the schools we are intending.