Team:NYC Software/Templates/boxes

From 2011.igem.org

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<div id="leftcontent" style="background:-webkit-gradient(linear, left top, left bottom, from(#f2f2f2), to(#f8f8f8));  
<div id="leftcontent" style="background:-webkit-gradient(linear, left top, left bottom, from(#f2f2f2), to(#f8f8f8));  
background: -moz-linear-gradient(top, #f2f2f2, #f8f8f8); color:#333333; height:150px;">
background: -moz-linear-gradient(top, #f2f2f2, #f8f8f8); color:#333333; height:150px;">
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<p style="line-height:140%; padding-left:10px; padding-top:10px; padding-right:10px;text-align:justify; font-size:90%;"> We studied genes responsible for radiation resistance in <a style="color:#6bbe00 !important" href="http://2011.igem.org/Team:NYC_Software/Deinococcus">Deinococcus</a> and E. coli using latest techniques in genome sequencing. With aid of RNA-seq technique and application of various genome alignment and analysis software suites we were able to study the genetic correlations of species' radiation responses. In the process we were able to create a number of tools that might aid future teams in working with tools of synthetic biology and the parts registry.
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<p style="line-height:140%; padding-left:10px; padding-top:10px; padding-right:10px;text-align:justify; font-size:90%;"> We studied genes responsible for radiation resistance in <a style="color:#6bbe00 !important" href="http://2011.igem.org/Team:NYC_Software/Deinococcus">Deinococcus</a> and E. coli using RNA-seq technique and software analysis. In the process we were able to create a number of tools that might aid future teams in working with tools of synthetic biology and the parts registry.
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<div id="ccontent" style="background:-webkit-gradient(linear, left top, left bottom, from(#f2f2f2), to(#f8f8f8));  
<div id="ccontent" style="background:-webkit-gradient(linear, left top, left bottom, from(#f2f2f2), to(#f8f8f8));  
background: -moz-linear-gradient(top, #f2f2f2, #f8f8f8); color:#333333; height:150px;">
background: -moz-linear-gradient(top, #f2f2f2, #f8f8f8); color:#333333; height:150px;">
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<p style="line-height:140%; padding-left:10px; padding-top:10px; padding-right:10px;text-align:justify; font-size:90%;">Synthetic biology is an emerging area of multidisciplinary science that tries to take the best lessons of the engineering and informations technologies and integrate them into study and design of biological systems. We believe the only way for the new field to take root and grow to its full potentials is to foster open exchange of data and ideas. And we aim to contribute to the field by developing tools that allows people to do synthetic biology easier and lets them communicate their data to and from others using uniform standard.
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<p style="line-height:140%; padding-left:10px; padding-top:10px; padding-right:10px;text-align:justify; font-size:90%;">We believe the only way for the new field like synthetic biology to take root and grow to its full potentials is to foster open exchange of data and ideas. We aim to contribute to the field by developing tools that allows people to do synthetic biology easier and lets them communicate their data to and from others using uniform standard.
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Revision as of 20:14, 31 August 2011


Abstract

We studied genes responsible for radiation resistance in Deinococcus and E. coli using RNA-seq technique and software analysis. In the process we were able to create a number of tools that might aid future teams in working with tools of synthetic biology and the parts registry.

Team Philosophy

We believe the only way for the new field like synthetic biology to take root and grow to its full potentials is to foster open exchange of data and ideas. We aim to contribute to the field by developing tools that allows people to do synthetic biology easier and lets them communicate their data to and from others using uniform standard.