Team:UCL-London-PG/HomeTest

From 2013.igem.org

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Revision as of 14:33, 14 June 2013

SPECTRA

Let there be Light

About iGEM

International Genetically Engineered Machine (iGEM) is an annual world-wide synthetic biology competition aimed at university students. Each year, participating teams from all over the world are challenged to bring their innovative ideas to life by applying engineering methodology in life sciences and ultimately produce “Biobricks” which are modular biological circuit parts that can be utilized to solve global issues.

About us

We are combination of dedicated graduate students and research assistants from both UCL Cancer Institute and UCL Engineering.

About idea

Improvising activation of the circuit with light, evolve bioluminescent proteins. Allow preclinical genetic imaging to study endogenous and disease processes in vivo and to image the genetic behaviour of life.

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-        <div class="inline" style="width:800px; height:650px; position:relative; top:0px;">
+        <div class="inline" style="width:800px; height:840px;">
            <div class="boxed roundBorder inline" style=" width:260px; height:350px;">
-              <p style="color:#8B8989; font-size:2.9em;"><b>About iGEM</b></p>
+              <p style="color:white; font-size:2.9em;"><b>About iGEM</b></p>
-              <p style="color:#8B8989; font-size:1.1em;">International Genetically Engineered Machine (iGEM)  is an annual world-wide synthetic biology competition aimed at university students. Each year, participating teams from all over the world are challenged to bring their innovative ideas to life by applying engineering methodology in life sciences and ultimately produce “Biobricks” which are modular biological circuit parts that can be utilized to solve global issues.</p>
+              <p style="color:#CDC9C9; font-size:1.1em;">International Genetically Engineered Machine (iGEM)  is an annual world-wide synthetic biology competition aimed at university students. Each year, participating teams from all over the world are challenged to bring their innovative ideas to life by applying engineering methodology in life sciences and ultimately produce “Biobricks” which are modular biological circuit parts that can be utilized to solve global issues.</p>
            </div>
            <div class="boxed roundBorder inline" style=" width:300px; height:180px;">
-              <p style="color:#8B8989; font-size:2.9em;"><b>About us</b></p>
+              <p style="color:white; font-size:2.9em;"><b>About us</b></p>
-              <p style="color:#8B8989; font-size:1.1em;">We are combination of dedicated graduate students and research assistants from both UCL Cancer Institute and UCL Engineering.</p>
+              <p style="color:#CDC9C9; font-size:1.1em;">We are combination of dedicated graduate students and research assistants from both UCL Cancer Institute and UCL Engineering.</p>
            </div>
            <div class="boxed roundBorder inline" style=" width:260px; height:300px;">
-              <p style="color:#8B8989; font-size:2.9em;"><b>About idea</b></p>
+              <p style="color:white; font-size:2.9em;"><b>About idea</b></p>
-              <p style="color:#8B8989; font-size:1.1em;">Improvising activation of the circuit with light, evolve bioluminescent proteins. Allow preclinical genetic imaging to study endogenous and disease processes in vivo and to image the genetic behaviour of life.</p>
+              <p style="color:#CDC9C9; font-size:1.1em;">Improvising activation of the circuit with light, evolve bioluminescent proteins. Allow preclinical genetic imaging to study endogenous and disease processes in vivo and to image the genetic behaviour of life.</p>
            </div>
         </div>