Team:Stanford-Brown

From 2013.igem.org

(Difference between revisions)
 
(3 intermediate revisions not shown)
Line 30: Line 30:
       <tr>
       <tr>
         <td>
         <td>
 +
<span id="abs-title" style="margin-top:-30px;"><a href="/Team:Stanford-Brown/Team/Apply">JOIN US IN 2014! CLICK HERE!</a></span>
           <div style="width: 550px; margin-top:0px;">
           <div style="width: 550px; margin-top:0px;">
             <span id="abs-title">ABSTRACT</span>
             <span id="abs-title">ABSTRACT</span>
Line 46: Line 47:
             <div style="margin-top:15px; text-align:center; font-weight: 600; font-size: 18px;">ACHIEVEMENTS</div>
             <div style="margin-top:15px; text-align:center; font-weight: 600; font-size: 18px;">ACHIEVEMENTS</div>
               <ul>
               <ul>
-
                 <li> <a href="/Team:Stanford-Brown/Projects/CRISPR">Isolated and bricked components of two CRISPR-Cas systems</a></li>
+
                  
                 <li> <a href="/Team:Stanford-Brown/Projects/BioWires">Demonstrated silver-ion incorporation in the DNA double-helix </a></li>
                 <li> <a href="/Team:Stanford-Brown/Projects/BioWires">Demonstrated silver-ion incorporation in the DNA double-helix </a></li>
-
                 <li> <a href="/Team:Stanford-Brown/Projects/EuCROPIS">Worked with NASA and the German Space agency to develop BioBrick constructs for the EuCROPIS Satellite Mission
+
                 <li> <a href="/Team:Stanford-Brown/Projects/EuCROPIS">Worked with NASA and the German Space agency to develop BioBrick constructs for the EuCROPIS Satellite Mission</a></li>
-
</a></li>
+
                <li> <a href="/Team:Stanford-Brown/Projects/CRISPR">Isolated and bricked components of two CRISPR-Cas systems</a></li>
                 <li> <a href="/Team:Stanford-Brown/Projects/De-Extinction">Designed and modeled ancestral proteins to understand early conditions of earth</a></li>
                 <li> <a href="/Team:Stanford-Brown/Projects/De-Extinction">Designed and modeled ancestral proteins to understand early conditions of earth</a></li>
<li> <a href="/Team:Stanford-Brown/Projects/De-Extinction#Evolutionary_Modeling">Collaborated with Dr. Rich Lenski to use 25 years of evolutionary data to model and text bioinformatics software </li>
<li> <a href="/Team:Stanford-Brown/Projects/De-Extinction#Evolutionary_Modeling">Collaborated with Dr. Rich Lenski to use 25 years of evolutionary data to model and text bioinformatics software </li>

Latest revision as of 04:12, 16 November 2013

JOIN US IN 2014! CLICK HERE!
ABSTRACT

Communication is an integral part of life as we know it. This summer, we pursued four synthetic biology projects with the goal of improving communication across different mediums. On the atomic level, our BioWires project has created silver-incorporating DNA strands to use as nanowires, which could improve the cost and effectiveness of electronics. Our CRISPR project worked on a system for passing DNA regulatory messages between cells, in effect creating transmissible vaccines. We also extrapolated proteins from the past to better understand early life on Earth for our De-Extinction project. Finally, we built a sucrose biosensor in B. subtilis that will be launched on the EuCROPIS satellite into low-Earth orbit.

We are the Stanford-Brown iGEM team, and we're connecting life on Earth to help us prepare for life beyond it.

Atomic Communication

Cellular Communication

Temporal Communication

Spatial Communication