Difference between revisions of "Team:Goettingen/Parts"

Line 107: Line 107:
 
                 <td>Composite</td>
 
                 <td>Composite</td>
 
                 <td>1341</td>
 
                 <td>1341</td>
            </tr>
 
            <tr>
 
                <td>BBa_K2586014/PyciAB-xylR</td>
 
                <td>yet to come</td>
 
                <td>Composite</td>
 
                <td></td>
 
            </tr>
 
            <tr>
 
                <td>BBa_K2586015/PyciC-xylR</td>
 
                <td>yet to come</td>
 
                <td>Composite</td>
 
                <td></td>
 
            </tr>
 
            <tr>
 
                <td>BBa_K2586016/PyciC</td>
 
                <td>Promoter of yciC </td>
 
                <td>Promoter</td>
 
                <td></td>
 
            </tr>
 
            <tr>
 
                <td>BBa_K2586017/PyciAB</td>
 
                <td>Promoters of yciAB</td>
 
                <td>Promoter</td>
 
                <td></td>
 
            </tr>
 
            <tr>
 
                <td>BBa_K2586018/xylR</td>
 
                <td>Regulation of xylan and xylose utilization </td>
 
                <td>Repressor</td>
 
                <td></td>
 
 
             </tr>
 
             </tr>
 
             <tr>
 
             <tr>

Revision as of 10:26, 13 September 2018

Parts

Connecting global research

Our contribution to a huge parts collection.

The concept of iGEM is based on the exchange of internationally provided DNA sequences. These sequences are called Biobricks and are collected in a big database, which grows steadily as iGEM progresses. In this way, teams all over the globe can benefit from the part collection and improve the work that was done previously by other teams, to drive the research further.

Basic parts and composite parts

Basic parts are functional DNA units that cannot be divided into smaller parts. A construct of multiple basic parts is called a composite part. Here, the functionality of a basic part was increased through the implementation of different functional sites. The parts of our team are listed and shortly described in the following table:

Part Number and Name Short Description Type Length in [bp]
BBa_K2586000/Palf4 Promoter for gltT expression Promoter 30
BBa_K2586001/gltT Uptake of glutamate from the environment Coding 1290
BBa_K2586002/gltP Uptake of glutamate from the environment Coding 1245
BBa_K2586003/aroE Converts Shikimate-3-phosphate into 5-enolpyruvylshikimate-3-phosphate DNA 1287
BBa_K2586004/Strep-Tag-aroE Converts Shikimate-3-phosphate into 5-enolpyruvylshikimate-3-phosphate in Bacillus subtilis Tag 1410
BBa_K2586005/PtrpP Promoter for trpP in Bacillus subtilis Promoter 467
BBa_K2586006/Strep-Tag-aroA Converts Shikimate-3-phosphate into 5-enolpyruvylshikimate-3-phosphate in Escherichia coli Tag 1407
BBa_K2586007/aroA Converts Shikimate-3-phosphate into 5-enolpyruvylshikimate-3-phosphate DNA 1284
BBa_K2586008/RBS Binding site for ribosome Binding Site 13
BBa_K2586009/RBS-gltT Ribosome binding site and glutamate transporter Composite 1303
BBa_K2586010/Palf4-RBS Promoter and Ribosome binding site Composite 94
BBa_K2586011/Palf4-RBS-gltT Promoter and Ribosome binding site for expresssion of glutamate transporter Composite 1347
BBa_K2586012/Palf4-RBS-GAT yet to come Composite 498
BBa_K2586013/Palf4-RBS-AroA* yet to come Composite 1341
BBa_K2586019/GAT Acetylation and therefore inactivation of glyphosate Enzyme 440
BBa_K2586020/AroA* Converts Shikimate-3-phosphate into 5-enolpyruvylshikimate-3-phosphate DNA 1283