Team:Freiburg/Description

From 2011.igem.org

(Difference between revisions)
(Part design)
(Part design)
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LxxLxLxxNxLxxLPxxLPxx  
LxxLxLxxNxLxxLPxxLPxx  
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This protein can be used to complex Nickel or Cobalt. Histidines are positioned in such a way, that they can coordinate the ions from two to four orthogonal oriented directions. Free binding sites of the ions are then exposed, so that a His-tagged protein can attach to them. This protein can be used to complex up to 4 Nickel or Cobalt.
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This protein can be used to complex Nickel or Cobalt. Histidines are positioned in such a way, that they can coordinate the ions
{| border=1 align="right"  
{| border=1 align="right"  
| colspan="2" | Protein sequence
| colspan="2" | Protein sequence
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LTSLQKIWLHTNPWDCSCPRIDY <br>
LTSLQKIWLHTNPWDCSCPRIDY <br>
LSRWLNKNSQKEQGSAKCSGSGKPVRSIICP <br></span>
LSRWLNKNSQKEQGSAKCSGSGKPVRSIICP <br></span>
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|}
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|} from two to four orthogonal oriented directions. Free binding sites of the ions are then exposed, so that a His-tagged protein can attach to them. This protein can be used to complex up to 4 Nickel or Cobalt.
The underying design of the protein is of a particular interest, too.  
The underying design of the protein is of a particular interest, too.  
LRR are highly conserved motifs throughout evolution. They appear in all kingdoms of life in almost every thinkable role (Ligases, Receptors, Toxins etc.). Their core is highly conserved and provides a very stable backbone, while the non-conserved aminoacids are almost freely interchangeable.  
LRR are highly conserved motifs throughout evolution. They appear in all kingdoms of life in almost every thinkable role (Ligases, Receptors, Toxins etc.). Their core is highly conserved and provides a very stable backbone, while the non-conserved aminoacids are almost freely interchangeable.  

Revision as of 12:38, 19 September 2011


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