Team:Freiburg/Modelling

From 2011.igem.org

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(Modelling: Rational protein design)
(Modelling: Rational protein design)
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| colspan="2" | '''I-Tasser: Structure prediction'''
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| colspan="2" | <font size="5">I-Tasser: Structure prediction</font>
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The predicted models are all evaluated by the C-Score, which assesses the quality of the prediction. It has a value from -5 to 2; the more positive the C-Score the merrier and more plausible the predicted structure is.  
The predicted models are all evaluated by the C-Score, which assesses the quality of the prediction. It has a value from -5 to 2; the more positive the C-Score the merrier and more plausible the predicted structure is.  
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[[File:Freiburg11Modelling3.png|border|750px]]
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[[File:Freiburg11Modelling3.png|thumb|750px]]
1.Ambrish Roy, Alper Kucukural, Yang Zhang. I-TASSER: a unified platform for automated protein structure and function prediction. Nature Protocols, vol 5, 725-738 (2010).  
1.Ambrish Roy, Alper Kucukural, Yang Zhang. I-TASSER: a unified platform for automated protein structure and function prediction. Nature Protocols, vol 5, 725-738 (2010).  
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We received this pdb file with a C-score= 0.53. Obviously this was not a realistic model, since the folding would surely be impaired by so many Histidines everywhere. But is was useful to find several good locations, were the Nickel could fit in in respect to the requirements it has for binding ligands.
We received this pdb file with a C-score= 0.53. Obviously this was not a realistic model, since the folding would surely be impaired by so many Histidines everywhere. But is was useful to find several good locations, were the Nickel could fit in in respect to the requirements it has for binding ligands.
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[[File:Freiburg11Modelling4.png]]
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[[File:Freiburg11Modelling4.png|thumb|400px]]
We manually fit in a Nickel ion, as it was crystallized in the mentioned PDB file, and measured the distances and evaluated the 3dimensional orientation of the Histidines towards the Nickel. Histidines can coordinate ligands with their free electron pair pointing planar away from the imidazole ring.
We manually fit in a Nickel ion, as it was crystallized in the mentioned PDB file, and measured the distances and evaluated the 3dimensional orientation of the Histidines towards the Nickel. Histidines can coordinate ligands with their free electron pair pointing planar away from the imidazole ring.
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[[File:Freiburg11Modelling5.png]]
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; [[File:Freiburg11_Seq4.png]]
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Revision as of 15:04, 20 September 2011


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