Team:LMU-Munich
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- | <td><span style="text-align:justify"></html>ApoControl Biobrick Library: Possibilities of utilizing apoptosis as a clean and effective selection mark for manipulation in eucaryotic systems. Serves the improving of gen-expression in cell lines and the curtailing of cloning processure for large-scale screening. [[Team:LMU-Munich/ | + | <td><span style="text-align:justify"></html> |
+ | [[image:Apologo.png|200px|center|ApoControl logo]] | ||
+ | ApoControl Biobrick Library: Possibilities of utilizing apoptosis as a clean and effective selection mark for manipulation in eucaryotic systems. Serves the improving of gen-expression in cell lines and the curtailing of cloning processure for large-scale screening. [[Team:LMU-Munich/ApoControl|more]]<html></span> | ||
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<td width="151" rowspan="2" valign="top"><img src="http://igem.semicolonsoftware.de/mediawiki/images/a/ab/Pathway-Symbol.jpg" width="149" height="141" /></td> | <td width="151" rowspan="2" valign="top"><img src="http://igem.semicolonsoftware.de/mediawiki/images/a/ab/Pathway-Symbol.jpg" width="149" height="141" /></td> | ||
<td><img src="http://igem.semicolonsoftware.de/mediawiki/images/1/19/Pathway-Header.gif" width="331" height="31" /></td> | <td><img src="http://igem.semicolonsoftware.de/mediawiki/images/1/19/Pathway-Header.gif" width="331" height="31" /></td> | ||
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<td></html>Engineering an artificial pathway in a bacterial microcompartment to produce functional azobenzene-compounds, such as protein crosslinkers, tethered or soluble enzyme-modulators or optimizedligands for other molecular applications. [[Team:LMU-Munich/Pathway|more]]<html></td></tr> | <td></html>Engineering an artificial pathway in a bacterial microcompartment to produce functional azobenzene-compounds, such as protein crosslinkers, tethered or soluble enzyme-modulators or optimizedligands for other molecular applications. [[Team:LMU-Munich/Pathway|more]]<html></td></tr> | ||
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<a href="http://multivac.de/"><br /><img src="https://static.igem.org/mediawiki/2010/a/af/Multivac.jpg" width="240" height="71" border=0 /></a> | <a href="http://multivac.de/"><br /><img src="https://static.igem.org/mediawiki/2010/a/af/Multivac.jpg" width="240" height="71" border=0 /></a> | ||
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<a href="http://www.ratiolab.com/"><img src="https://static.igem.org/mediawiki/2010/6/60/Ratiolab-Logo_II.jpg" width="197" height="71" border="0" /></a><font size="1"><br /><br /></font> | <a href="http://www.ratiolab.com/"><img src="https://static.igem.org/mediawiki/2010/6/60/Ratiolab-Logo_II.jpg" width="197" height="71" border="0" /></a><font size="1"><br /><br /></font> | ||
<a href="http://www.ratiolab.com/"> | <a href="http://www.ratiolab.com/"> | ||
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<font size="2" face="verdana">ratiolab-disposables for sciences</font></a></td> | <font size="2" face="verdana">ratiolab-disposables for sciences</font></a></td> | ||
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Latest revision as of 20:36, 26 October 2010
ApoControl Biobrick Library: Possibilities of utilizing apoptosis as a clean and effective selection mark for manipulation in eucaryotic systems. Serves the improving of gen-expression in cell lines and the curtailing of cloning processure for large-scale screening. more
Engineering an artificial pathway in a bacterial microcompartment to produce functional azobenzene-compounds, such as protein crosslinkers, tethered or soluble enzyme-modulators or optimizedligands for other molecular applications. more
Center for Integrated Protein Science Munich LMU excellent
Multivac - Better Packaging