Team:Freiburg/Modelling

From 2011.igem.org

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(The Idea)
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The Construction of a new protein
The Construction of a new protein
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.
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)EDIT!, 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,
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After evaluating the C-Scores of I-TASSER we saw that our favorite versions 1,2 and 4 gave acceptable scores. We then reverse translated them with a codon usage optimized for E. coli, using http://www.bioinformatics.org/sms2/rev_trans.html
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After evaluating the C-Scores of I-TASSER we saw that our favorite versions 1,2 and 4 gave acceptable scores. We then reverse translated them with a codon usage optimized for ''E. coli'', using http://www.bioinformatics.org/sms2/rev_trans.html
The sequence was handed over to our sponsor ATG:biosynthetics, who ran their own analysis on it, to optimize the sequence for RNA trafficking and secondary structures. In pictures below the alignment of our reverse translated sequence and the returned sequence is shown: ours above, ATG:biosynthetics sequence below. Underlined in red are the mutations the company introduced to optimize the expression. They also were so kind to synthesize the three genes for us as a gift.
The sequence was handed over to our sponsor ATG:biosynthetics, who ran their own analysis on it, to optimize the sequence for RNA trafficking and secondary structures. In pictures below the alignment of our reverse translated sequence and the returned sequence is shown: ours above, ATG:biosynthetics sequence below. Underlined in red are the mutations the company introduced to optimize the expression. They also were so kind to synthesize the three genes for us as a gift.

Revision as of 20:10, 21 September 2011


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