Difference between revisions of "Team:Vilnius-Lithuania/Project"

Latest revision as of 19:06, 1 October 2015

Description

We created Coliclock - a bacterial system, which helps to limit the spreading of GMOs in nature. To construct our system we used I-F type CRISPR-Cas mechanism, which contains Cascade complex, cas3 protein and crRNA genes. Click below to find out more.

Design

Coliclock was designed by creating regulatory and functional units. Regulatory unit consists of pLux/cI promoter, LuxI, LuxR, pLac operon and cI repressor. Functional unit consists of Cascade complex, Cas3 protein and crRNR genes. Click below to find out more.

Application

We wanted to show how efficient our system could be if it was applied to practice. For this reason we selected a few projects from iGEM competition and discussed, how could our Coliclock system be incorporated in them. Click below to find out more.

Modeling

We explained our project by creating a simple scheme. This scheme shows and predicts concentration differences of Cas3 and Cascade proteins. More important, a scheme describe results, which are expected after we add IPTG in a laboratory environment. Click below to find out more.

Results

During our project we achieved our goals to create functioning system. We fully cloned functional unit and achieved most of the work with the regulatory unit. Click below to find out more.

@@ Line 69: / Line 69: @@
        <div class="caption" style="color: rgb(00,00,00); background-color: rgb(249,249,249); position: relative;">
          <h3 class="text-heading" style="border-bottom: 3px solid rgb(62,62,62); margin: 20px 20px;">Modeling</h3>
-         <p class="text-justify" style="background-color: rgb(249,249,249); margin-top: 20px; min-height: 100px; ">We explained our project by creating a simple scheme. This scheme shows and predicts concentration of Cas3 and Cd. More important, a scheme describe a results, what is expected after we add IPTG ( living in a lab bacteria) and don't add (environmental bacteria)</p>
+         <p class="text-justify" style="background-color: rgb(249,249,249); margin-top: 20px; min-height: 150px; ">We explained our project by creating a simple scheme. This scheme shows and predicts concentration differences of Cas3 and Cascade proteins. More important, a scheme describe results, which are expected after we add IPTG in a laboratory environ&shy;ment. Click below to find out more.</p>
               <a href="https://2015.igem.org/Team:Vilnius-Lithuania/Modeling">
 <img style="margin-top: 20px;" src="https://static.igem.org/mediawiki/2015/c/cd/Vilnius15_circle_dots.png"
@@ Line 85: / Line 85: @@
        <div class="caption" style="color: rgb(00,00,00); background-color: rgb(249,249,249); position: relative;">
          <h3 class="text-heading" style="border-bottom: 3px solid rgb(62,62,62); margin: 20px 20px;">Results</h3>
-         <p class="text-justify" style="background-color: rgb(249,249,249); margin-top: 20px; min-height: 100px;">During our project we achieved our goals to create functioning system. We fully cloned functional unit and did almost all the work with the regulatory unit. Click below to find out more. </p>
+         <p class="text-justify" style="background-color: rgb(249,249,249); margin-top: 20px; min-height: 150px;">During our project we achieved our goals to create functioning system. We fully cloned functional unit and achieved most of the work with the regulatory unit. Click below to find out more. </p>
               <a href="https://2015.igem.org/Team:Vilnius-Lithuania/Results">
 <img style="margin-top: 20px;" src="https://static.igem.org/mediawiki/2015/c/cd/Vilnius15_circle_dots.png"