Team:TU Darmstadt/Achievements/Parts
From 2014.igem.org
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<!--TYPO3SEARCH_begin--><div id="c139" class="csc-default"><div class="csc-header csc-header-n1"><h1 class="csc-header-alignment-left csc-firstHeader">Parts</h1></div><div class="csc-textpic csc-textpic-left csc-textpic-below"><div class="csc-textpic-text"><div><p>This page contains the <a href="http://parts.igem.org/Help:An_Introduction_to_BioBricks?title=Help:An_Introduction_to_BioBricks" title="Link to parts.igem.org" target="_blank" class="external-link-new-window">BioBricks</a> that our<a href="https://2014.igem.org/Team:TU_Darmstadt/Team" title="Opens internal link in current window" class="internal-link"> team</a> created and distributed to the <a href="http://parts.igem.org/Main_Page?title=Main_Page" title="Link to parts.igem.org" target="_blank" class="external-link-new-window">registry</a>. BioBricks are the standardised building blocks of synthetic biology, they usually consist of circular DNA (plasmid) and a DNA sequence coding for a specific function like a protein or a promotor. The finalised BioBrick is based on the <a href="http://parts.igem.org/Part:pSB1C3" title="Link to parts.igem.org" target="_blank" class="external-link-new-window">pSB1C3</a> vector which contains defined restrictions sites for an easy assembly and a chloramphenicol resistance for selection purposes.</p></div><div><p><b>In general three levels of complexity are distinguished:</b></p></div><div><p>- Simple parts like proteins, promoters, RBS, terminators</p></div><div><p>- Devices they consists of wired parts like a RBS in front of a protein sequence</p></div><div><p>- Systems are interconnected devices (like ab electric circuit) e.g. a combination of promoter, RBS, protein and terminator</p></div><div><p>Via combination of parts and devices a wide range of new functions can be generated. Assembling multiple parts can be achieved by recombination of cut parts.</p></div></div><div class="contentcenter" data-csc-images="1" data-csc-cols="2"><figure class="csc-textpic-image csc-textpic-last"><img src="https://static.igem.org/mediawiki/2014/9/98/Biobrick_system.jpg" width="514" height="369" alt="" title="Figure 1: BioBrick system cloning overview"></figure></div></div></div><!--TYPO3SEARCH_end--> | <!--TYPO3SEARCH_begin--><div id="c139" class="csc-default"><div class="csc-header csc-header-n1"><h1 class="csc-header-alignment-left csc-firstHeader">Parts</h1></div><div class="csc-textpic csc-textpic-left csc-textpic-below"><div class="csc-textpic-text"><div><p>This page contains the <a href="http://parts.igem.org/Help:An_Introduction_to_BioBricks?title=Help:An_Introduction_to_BioBricks" title="Link to parts.igem.org" target="_blank" class="external-link-new-window">BioBricks</a> that our<a href="https://2014.igem.org/Team:TU_Darmstadt/Team" title="Opens internal link in current window" class="internal-link"> team</a> created and distributed to the <a href="http://parts.igem.org/Main_Page?title=Main_Page" title="Link to parts.igem.org" target="_blank" class="external-link-new-window">registry</a>. BioBricks are the standardised building blocks of synthetic biology, they usually consist of circular DNA (plasmid) and a DNA sequence coding for a specific function like a protein or a promotor. The finalised BioBrick is based on the <a href="http://parts.igem.org/Part:pSB1C3" title="Link to parts.igem.org" target="_blank" class="external-link-new-window">pSB1C3</a> vector which contains defined restrictions sites for an easy assembly and a chloramphenicol resistance for selection purposes.</p></div><div><p><b>In general three levels of complexity are distinguished:</b></p></div><div><p>- Simple parts like proteins, promoters, RBS, terminators</p></div><div><p>- Devices they consists of wired parts like a RBS in front of a protein sequence</p></div><div><p>- Systems are interconnected devices (like ab electric circuit) e.g. a combination of promoter, RBS, protein and terminator</p></div><div><p>Via combination of parts and devices a wide range of new functions can be generated. Assembling multiple parts can be achieved by recombination of cut parts.</p></div></div><div class="contentcenter" data-csc-images="1" data-csc-cols="2"><figure class="csc-textpic-image csc-textpic-last"><img src="https://static.igem.org/mediawiki/2014/9/98/Biobrick_system.jpg" width="514" height="369" alt="" title="Figure 1: BioBrick system cloning overview"></figure></div></div></div><!--TYPO3SEARCH_end--> | ||
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Revision as of 17:26, 17 October 2014
Parts
This page contains the BioBricks that our team created and distributed to the registry. BioBricks are the standardised building blocks of synthetic biology, they usually consist of circular DNA (plasmid) and a DNA sequence coding for a specific function like a protein or a promotor. The finalised BioBrick is based on the pSB1C3 vector which contains defined restrictions sites for an easy assembly and a chloramphenicol resistance for selection purposes.
In general three levels of complexity are distinguished:
- Simple parts like proteins, promoters, RBS, terminators
- Devices they consists of wired parts like a RBS in front of a protein sequence
- Systems are interconnected devices (like ab electric circuit) e.g. a combination of promoter, RBS, protein and terminator
Via combination of parts and devices a wide range of new functions can be generated. Assembling multiple parts can be achieved by recombination of cut parts.