Team:UANL Mty-Mexico/Jr Highschools

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Jr. High School Visits [ Back]

Colegio Labastida

Our team was a special guest, where we were part of the anual science fair; we made our presentation before approximately 300 children from different grades at junior high level. We completed the banana DNA extraction in a demonstrative exhibition; kids showed curiosity and interest towards the topic during the talk and the DNA extraction activity.

Colegio Independencia

We were invited to present our talk to last year junior high student, who were very interested in the topic; we perfomed the DNA extraction with whole groups.

Escuela Secundaria # 3

We participated with our talk and the project generation activity, using some already registered BioBricks; satisfactory results were obtained, as kids presented their own projects, showing that they understood the concept of Synthetic Biology and iGEM.

Colegio La Salle

We were invited to give our talk and to perform our activity of generating a Project using BioBricks. Kids were very enthusiastic. We also presented an introduction to Synthetic Biology and performed the DNA extraction.

Secundaria # 83

The team was invited to this junior high school in the municipality of Guadalupe. We gave our introductory talk about Synthetic Biology and performed the banana DNA extraction.

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-<br><h1><b>Synthetic Biology Tunnel</b></h1><br>
-<p>The Synthetic Biology (SynBio) Tunnel is a project to massively inform the crowd. We gave people
-of all ages accurate information to understand what SynBio is and how it is carried out.
-In about 90 minutes and across ten interactive modules, we covered topics from basic molecular biology
-to applications of SynBio and iGEM. Our objective is to educate people in the area in order to
-promote a founded, critic judgment. Voilà a glance at the tunnel modules:<br></p><br>
-<div id="slidorion">
-	<div id="slider">
-		<div class="slide1"><img src="https://static.igem.org/mediawiki/2012/f/f1/Tunel_de_la_Biologia_Sintetica_Modulo_1_DNA.jpg" height="450" ></div>
-		<div class="slide2"><img src="https://static.igem.org/mediawiki/2012/1/18/Tunel_de_la_Biologia_Sintetica_Modulo_2_Genes.jpg" height="450" ></div>
-		<div class="slide3"><img src="https://static.igem.org/mediawiki/2012/8/87/Tunel_Biologia_Sintetica_Modulo_3_Proteins.jpg" height="450" ></div>
-		<div class="slide4"><img src="https://static.igem.org/mediawiki/2012/0/0f/Tunel_de_la_Biologia_Sintetica_Modulo_4_Ingenieria_Genetica.jpg" width="700" height="450" ></div>
-		<div class="slide5"><img src="https://static.igem.org/mediawiki/2012/e/e1/Tunel_Biologia_Sintetica_Modulo_5_SynBiol.jpg" height="450" ></div>
-		<div class="slide6"><img src="https://static.igem.org/mediawiki/2012/a/ab/Tunel_Biologia_Sintetica_Modulo_6_BioBricks.jpg" height="450" ></div>
-		<div class="slide7"><img src="https://static.igem.org/mediawiki/2012/8/8c/Tunel_de_la_Biologia_Sintetica_Modulo_7_Biological_Machine.jpg" height="450" ></div>
-		<div class="slide8"><img src="https://static.igem.org/mediawiki/2012/7/71/Tunel_de_la_Biologia_Sintetica_Modulo_8_Aplications.jpg" height="450" ></div>
-		<div class="slide9"><img src="https://static.igem.org/mediawiki/2012/0/05/Tunel_de_la_Biologia_Sintetica_Modulo_9_iGEM.jpg" height="450" ></div>
-		<div class="slide10"><img src="https://static.igem.org/mediawiki/2012/d/d7/Tunel_de_la_Biologia_Sintetica_Modulo_10_Ethics.jpg" height="400" ></div>
-	</div>
-	<div id="accordion">
-		<div class="link-header">1: DNA</div>
-		<div class="link-content">
-		<b>Topics:</b> -DNA as the information storage molecule in all living things. -Organization of DNA within cells. -Molecular structure of DNA -DNA structure model.
-<b>Activity</b>: Puzzle board game to learn how DNA is copied.
-		</div>
-		<div class="link-header">2: Genes</div>
-		<div class="link-content">
-		<b>Topics</b>: -Genes as functional units of DNA -Organization and parts of a genes -How do the genes work? -Central dogma of molecular biology.
-<b>Activity</b>: Puzzle with multiple options to explain gene function through the central Dogma. -Use of common examples.
-		</div>
-		<div class="link-header">3: Proteins</div>
-		<div class="link-content">
-		<b>Topics</b>: -Proteins as carriers of most biological processes -Types of proteins -Examples of  common proteins -The genetic code
-<b>Activity</b>: Build a protein from DNA code (translation), Protein models.
-		</div>
-        <div class="link-header">4: Genetic Engineering</div>
-        <div class="link-content">
-		<b>Topics</b>: -Recombinant DNA technology -Restriction enzymes, ligase and vectors -Examples.
-<b>Activity</b>: Build a recombinant DNA molecule with colored cables  and transform a cell.
-        </div>
-        <div class="link-header">5: Synthetic Biology</div>
-        <div class="link-content">
-            <b>Topics</b>: -Universality, modularity and abstraction of bioparts -Synbio as the application of engineering concepts to biology -Advancements in DNA synthesis and sequencing technologies.
-<b>Activity</b>:  Construct a genetic circuit on a board and estimate time and costs to build it.
-            </div>
-        <div class="link-header">6: Biobricks</div>
-        <div class="link-content">
-            <b>Topics</b>: -BioBricks as standard DNA parts - Parts of a BioBrick - Types of BioBricks. -Biobrick assembly -The Registry of Standard Biological Parts
-<b>Activity</b>: Put compatible bricks together.
-            </div>
-        <div class="link-header">7: Biological machine</div>
-        <div class="link-content">
-	<b>Topics</b>: -Imagine the possibilities -Addressing high impact problems through biomachines. -Metabolic load -Advantages of biomachines over robots.
-<b>Activity</b>: "Labyrinth of metabolism" so that the visitor knows that "parts" must be manipulated to make a organism perform certain function.
-	        </div>
-        <div class="link-header">8: Applications of SynBio</div>
-        <div class="link-content">
-        <b>Topics</b>: -Impact of SynBio in a wide variety of areas - Examples of issues solved through SynBio (How do these projects work?)
-<b>Activity</b>: The visitor must correlate a specific genetic circuit to its application area.
-		        </div>
-        <div class="link-header">9: iGEM</div>
-        <div class="link-content">
-	<b>Topics</b>: iGEM as the biggest synthetic biology competition, rules, motivation, scope. - iGEM UANL 2011 and 2012 -CIDEB-UANL 2012
-<b>Activity</b>: -Explain<a href= "https://2011.igem.org/Team:UANL_Mty-Mexico"> our 2011 project </a>-Exhibition of the light-machine used in our project -Explain <a href="https://2012hs.igem.org/Team:CIDEB-UANL_Mexico">CIDEB's 2012 project </a>
-	        </div>
-        <div class="link-header">10: Ethics and Biosafety</div>
-        <div class="link-content">
-        	<b>Topics</b>: -Ethics definition -Human quality of life -Good and ugly -Impact awareness -Acceptance of SynBio -Potential problems -Precautions taken to prevent them -Biosafety levels
-<b>Activity</b>: Dress with biosafety equipment  (lab coat, glasses, gloves…) as fast as possible!
-        </div>
-	</div>
-</div>
 <p><h2>Jr. High School Visits [<a href="https://2013.igem.org/Team:UANL_Mty-Mexico/Talks"> Back</a>]</h2><br></p>
@@ Line 174: / Line 75: @@
 </table>
-<p><h2>Memorable Experiences [<a href="https://2013.igem.org/Team:UANL_Mty-Mexico/Talks"> Back</a>]</h2><br></p>
-<p align="justify">Cada uno de los miembros del equipo iGEM UANL vivió al igual que los jóvenes de las secundarias experiencias inolvidables. He aquí algunas de ellas:</p>
-<div id="slidorion">
-	<div id="slider">
-		<div class="slide1"><img src="https://static.igem.org/mediawiki/2012/f/f1/Tunel_de_la_Biologia_Sintetica_Modulo_1_DNA.jpg" height="450" ></div>
-		<div class="slide2"><img src="https://static.igem.org/mediawiki/2012/1/18/Tunel_de_la_Biologia_Sintetica_Modulo_2_Genes.jpg" height="450" ></div>
-		<div class="slide3"><img src="https://static.igem.org/mediawiki/2012/8/87/Tunel_Biologia_Sintetica_Modulo_3_Proteins.jpg" height="450" ></div>
-		<div class="slide4"><img src="https://static.igem.org/mediawiki/2012/0/0f/Tunel_de_la_Biologia_Sintetica_Modulo_4_Ingenieria_Genetica.jpg" width="700" height="450" ></div>
-		<div class="slide5"><img src="https://static.igem.org/mediawiki/2012/e/e1/Tunel_Biologia_Sintetica_Modulo_5_SynBiol.jpg" height="450" ></div>
-		<div class="slide6"><img src="https://static.igem.org/mediawiki/2012/a/ab/Tunel_Biologia_Sintetica_Modulo_6_BioBricks.jpg" height="450" ></div>
-		<div class="slide7"><img src="https://static.igem.org/mediawiki/2012/8/8c/Tunel_de_la_Biologia_Sintetica_Modulo_7_Biological_Machine.jpg" height="450" ></div>
-		<div class="slide8"><img src="https://static.igem.org/mediawiki/2012/7/71/Tunel_de_la_Biologia_Sintetica_Modulo_8_Aplications.jpg" height="450" ></div>
-		<div class="slide9"><img src="https://static.igem.org/mediawiki/2012/0/05/Tunel_de_la_Biologia_Sintetica_Modulo_9_iGEM.jpg" height="450" ></div>
-		<div class="slide10"><img src="https://static.igem.org/mediawiki/2012/d/d7/Tunel_de_la_Biologia_Sintetica_Modulo_10_Ethics.jpg" height="400" ></div>
-	</div>
-	<div id="accordion">
-		<div class="link-header">1: DNA</div>
-		<div class="link-content">
-		<b>Topics:</b> -DNA as the information storage molecule in all living things. -Organization of DNA within cells. -Molecular structure of DNA -DNA structure model.
-<b>Activity</b>: Puzzle board game to learn how DNA is copied.
-		</div>
-		<div class="link-header">2: Genes</div>
-		<div class="link-content">
-		<b>Topics</b>: -Genes as functional units of DNA -Organization and parts of a genes -How do the genes work? -Central dogma of molecular biology.
-<b>Activity</b>: Puzzle with multiple options to explain gene function through the central Dogma. -Use of common examples.
-		</div>
-		<div class="link-header">3: Proteins</div>
-		<div class="link-content">
-		<b>Topics</b>: -Proteins as carriers of most biological processes -Types of proteins -Examples of  common proteins -The genetic code
-<b>Activity</b>: Build a protein from DNA code (translation), Protein models.
-		</div>
-        <div class="link-header">4: Genetic Engineering</div>
-        <div class="link-content">
-		<b>Topics</b>: -Recombinant DNA technology -Restriction enzymes, ligase and vectors -Examples.
-<b>Activity</b>: Build a recombinant DNA molecule with colored cables  and transform a cell.
-        </div>
-        <div class="link-header">5: Synthetic Biology</div>
-        <div class="link-content">
-            <b>Topics</b>: -Universality, modularity and abstraction of bioparts -Synbio as the application of engineering concepts to biology -Advancements in DNA synthesis and sequencing technologies.
-<b>Activity</b>:  Construct a genetic circuit on a board and estimate time and costs to build it.
-            </div>
-        <div class="link-header">6: Biobricks</div>
-        <div class="link-content">
-            <b>Topics</b>: -BioBricks as standard DNA parts - Parts of a BioBrick - Types of BioBricks. -Biobrick assembly -The Registry of Standard Biological Parts
-<b>Activity</b>: Put compatible bricks together.
-            </div>
-        <div class="link-header">7: Biological machine</div>
-        <div class="link-content">
-	<b>Topics</b>: -Imagine the possibilities -Addressing high impact problems through biomachines. -Metabolic load -Advantages of biomachines over robots.
-<b>Activity</b>: "Labyrinth of metabolism" so that the visitor knows that "parts" must be manipulated to make a organism perform certain function.
-	        </div>
-        <div class="link-header">8: Applications of SynBio</div>
-        <div class="link-content">
-        <b>Topics</b>: -Impact of SynBio in a wide variety of areas - Examples of issues solved through SynBio (How do these projects work?)
-<b>Activity</b>: The visitor must correlate a specific genetic circuit to its application area.
-		        </div>
-        <div class="link-header">9: iGEM</div>
-        <div class="link-content">
-	<b>Topics</b>: iGEM as the biggest synthetic biology competition, rules, motivation, scope. - iGEM UANL 2011 and 2012 -CIDEB-UANL 2012
-<b>Activity</b>: -Explain<a href= "https://2011.igem.org/Team:UANL_Mty-Mexico"> our 2011 project </a>-Exhibition of the light-machine used in our project -Explain <a href="https://2012hs.igem.org/Team:CIDEB-UANL_Mexico">CIDEB's 2012 project </a>
-	        </div>
-        <div class="link-header">10: Ethics and Biosafety</div>
-        <div class="link-content">
-        	<b>Topics</b>: -Ethics definition -Human quality of life -Good and ugly -Impact awareness -Acceptance of SynBio -Potential problems -Precautions taken to prevent them -Biosafety levels
-<b>Activity</b>: Dress with biosafety equipment  (lab coat, glasses, gloves…) as fast as possible!
-        </div>
-	</div>
-</div>
-<!--slider initialising-->
- <script>
-	$(function() {
-		$('#slidorion').slidorion();
-	});
-</script>
-<div id="slidorion">
-	<div id="slider">
-		<div class="slide1"><img src="https://static.igem.org/mediawiki/2012/f/f1/Tunel_de_la_Biologia_Sintetica_Modulo_1_DNA.jpg" height="450" ></div>
-		<div class="slide2"><img src="https://static.igem.org/mediawiki/2012/1/18/Tunel_de_la_Biologia_Sintetica_Modulo_2_Genes.jpg" height="450" ></div>
-		<div class="slide3"><img src="https://static.igem.org/mediawiki/2012/8/87/Tunel_Biologia_Sintetica_Modulo_3_Proteins.jpg" height="450" ></div>
-		<div class="slide4"><img src="https://static.igem.org/mediawiki/2012/0/0f/Tunel_de_la_Biologia_Sintetica_Modulo_4_Ingenieria_Genetica.jpg" width="700" height="450" ></div>
-		<div class="slide5"><img src="https://static.igem.org/mediawiki/2012/e/e1/Tunel_Biologia_Sintetica_Modulo_5_SynBiol.jpg" height="450" ></div>
-		<div class="slide6"><img src="https://static.igem.org/mediawiki/2012/a/ab/Tunel_Biologia_Sintetica_Modulo_6_BioBricks.jpg" height="450" ></div>
-		<div class="slide7"><img src="https://static.igem.org/mediawiki/2012/8/8c/Tunel_de_la_Biologia_Sintetica_Modulo_7_Biological_Machine.jpg" height="450" ></div>
-		<div class="slide8"><img src="https://static.igem.org/mediawiki/2012/7/71/Tunel_de_la_Biologia_Sintetica_Modulo_8_Aplications.jpg" height="450" ></div>
-		<div class="slide9"><img src="https://static.igem.org/mediawiki/2012/0/05/Tunel_de_la_Biologia_Sintetica_Modulo_9_iGEM.jpg" height="450" ></div>
-		<div class="slide10"><img src="https://static.igem.org/mediawiki/2012/d/d7/Tunel_de_la_Biologia_Sintetica_Modulo_10_Ethics.jpg" height="400" ></div>
-	</div>
-	<div id="accordion">
-		<div class="link-header">1: DNA</div>
-		<div class="link-content">
-		<b>Topics:</b> -DNA as the information storage molecule in all living things. -Organization of DNA within cells. -Molecular structure of DNA -DNA structure model.
-<b>Activity</b>: Puzzle board game to learn how DNA is copied.
-		</div>
-		<div class="link-header">2: Genes</div>
-		<div class="link-content">
-		<b>Topics</b>: -Genes as functional units of DNA -Organization and parts of a genes -How do the genes work? -Central dogma of molecular biology.
-<b>Activity</b>: Puzzle with multiple options to explain gene function through the central Dogma. -Use of common examples.
-		</div>
-		<div class="link-header">3: Proteins</div>
-		<div class="link-content">
-		<b>Topics</b>: -Proteins as carriers of most biological processes -Types of proteins -Examples of  common proteins -The genetic code
-<b>Activity</b>: Build a protein from DNA code (translation), Protein models.
-		</div>
-        <div class="link-header">4: Genetic Engineering</div>
-        <div class="link-content">
-		<b>Topics</b>: -Recombinant DNA technology -Restriction enzymes, ligase and vectors -Examples.
-<b>Activity</b>: Build a recombinant DNA molecule with colored cables  and transform a cell.
-        </div>
-        <div class="link-header">5: Synthetic Biology</div>
-        <div class="link-content">
-            <b>Topics</b>: -Universality, modularity and abstraction of bioparts -Synbio as the application of engineering concepts to biology -Advancements in DNA synthesis and sequencing technologies.
-<b>Activity</b>:  Construct a genetic circuit on a board and estimate time and costs to build it.
-            </div>
-        <div class="link-header">6: Biobricks</div>
-        <div class="link-content">
-            <b>Topics</b>: -BioBricks as standard DNA parts - Parts of a BioBrick - Types of BioBricks. -Biobrick assembly -The Registry of Standard Biological Parts
-<b>Activity</b>: Put compatible bricks together.
-            </div>
-        <div class="link-header">7: Biological machine</div>
-        <div class="link-content">
-	<b>Topics</b>: -Imagine the possibilities -Addressing high impact problems through biomachines. -Metabolic load -Advantages of biomachines over robots.
-<b>Activity</b>: "Labyrinth of metabolism" so that the visitor knows that "parts" must be manipulated to make a organism perform certain function.
-	        </div>
-        <div class="link-header">8: Applications of SynBio</div>
-        <div class="link-content">
-        <b>Topics</b>: -Impact of SynBio in a wide variety of areas - Examples of issues solved through SynBio (How do these projects work?)
-<b>Activity</b>: The visitor must correlate a specific genetic circuit to its application area.
-		        </div>
-        <div class="link-header">9: iGEM</div>
-        <div class="link-content">
-	<b>Topics</b>: iGEM as the biggest synthetic biology competition, rules, motivation, scope. - iGEM UANL 2011 and 2012 -CIDEB-UANL 2012
-<b>Activity</b>: -Explain<a href= "https://2011.igem.org/Team:UANL_Mty-Mexico"> our 2011 project </a>-Exhibition of the light-machine used in our project -Explain <a href="https://2012hs.igem.org/Team:CIDEB-UANL_Mexico">CIDEB's 2012 project </a>
-	        </div>
-        <div class="link-header">10: Ethics and Biosafety</div>
-        <div class="link-content">
-        	<b>Topics</b>: -Ethics definition -Human quality of life -Good and ugly -Impact awareness -Acceptance of SynBio -Potential problems -Precautions taken to prevent them -Biosafety levels
-<b>Activity</b>: Dress with biosafety equipment  (lab coat, glasses, gloves…) as fast as possible!
-        </div>
-	</div>
 </div>
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