Team:Freiburg/Modelling

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(Modelling: Rational protein design)
(Modelling: Rational protein design)
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Furthermore, many of the natural LRR proteins – of course – have their own biological function, we we were afraid could interfere in the cellular system we wanted to express them in. Luckily there are over a thousand already known structures of LRR proteins, what gave us a broad choice of motifs to choose and compare.
Furthermore, many of the natural LRR proteins – of course – have their own biological function, we we were afraid could interfere in the cellular system we wanted to express them in. Luckily there are over a thousand already known structures of LRR proteins, what gave us a broad choice of motifs to choose and compare.
The Construction of a new protein
The Construction of a new protein
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After a long and detailed search, we found out that it is most reasonable to use bacterial LRR motifs, since they seemed very well conserved in sequence, and they are the shortest – with only 21 amino acids per LRR repeat. (Wei 2008, Kajava 1998). We wanted to have the protein as simple and as predictable in behavior and structure as possible.
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After a long and detailed search, we found out that it is most reasonable to use bacterial LRR motifs, since they seemed very well conserved in sequence, and they are the shortest – with only 21 amino acids per LRR repeat. (Wei 2008, Kajava 1998). We wanted to have a protein as simple and as predictable in behavior and structure as possible.
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Several search inquiries led to the most conserved and shortest of all bacterial LRR (PDB: NO), unluckily this protein is a toxin derived from Yersinia pestis. We of course did not want to mess around with toxins,
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Several search inquiries led to the most conserved and shortest of all bacterial LRR (PDB: NO)EDIT!, unluckily this protein is a toxin derived from Yersinia pestis. We of course did not want to mess around with toxins,
{| style="color:black; background-color:lightgrey;" cellpadding="10%" cellpadding="15%" cellspacing="0" border="1" align=right
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|[[File:Freiburg11_Seq1.png|250px]]
|[[File:Freiburg11_Seq1.png|250px]]
Caption
Caption
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especially not with one of the black plague. We also did not know what amino acid pattern on the LRR motif would cause the toxic effect. There probably would have been no harm from this protein alone, even if we did clone and express it, but why should we do that when we have a huge choice for free at hand anyway. Finally we settled on the bacterial ligase PDB:3CVR. A ligase would be definitively harmless, especially since we planned to restructure it completely.
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especially not with one of the black plague. We also did not know what amino acid pattern on the LRR motif would cause the toxic effect. Probably, there would have been no harm in using this protein alone, even if we did clone and express it, but why should we do that when we have a huge choice freely available anyway. Finally, we settled on the bacterial ligase PDB:3CVR. A ligase would be definitively harmless, especially since we planned to restructure it entirely.
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To do this we needed to understand how the structure of the Ligase was made.
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To do this we needed to understand how the structure of the Ligase was made up.
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It was that our desired protein LRR motif was only a part of a bigger protein “factory” which included several domains that seemed to serve distinct functions – which we did not want.
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Our desired protein LRR motif was only a part of a bigger protein “factory” which included several domains that seemed to serve distinct functions – more than we had use for.
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So we took only the LRR domain. It looked to us, as if this domain had mostly a structural role in this “factory”, but we could not tell that exactly. To avoid any unspecific biological function it was necessary to rearrange the amino acid composition.
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So we exclusively used the LRR domain. It seemed to us that this domain had mostly a structural role in this “factory”, but we could not tell that exactly. To avoid any unspecific biological function it was necessary to rearrange the amino acid composition.
We fed the protein sequence in a free online consensus sequence generator called weblogo from the Berkeley University.
We fed the protein sequence in a free online consensus sequence generator called weblogo from the Berkeley University.
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Revision as of 01:07, 21 September 2011


This is the wiki page
of the Freiburger student
team competing for iGEM 2011.
Thank you for your interest!