Team:Freiburg/Description

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==Plastic binding domain==
==Plastic binding domain==
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'''One of the issues of our project „lab in a cell“ was to use endogenous proteins produced by the cell itself for specific purification and hereby to replace expensive columns. The „precipitator“ designed by our team contains a protein binding domain which complexes nickel and thus enables the binding of His-tagged proteins. After cell lysis the “precipitator” is freely dissolved in the cell lysate. To be able to isolate the “precipitator”-His-tagged-protein-complex from the other cell components it has to be immobilized by another protein domain. The part we designed for this function is the so-called plastic binding domain.'''
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One of the issues of our project „lab in a cell“ was to use endogenous proteins produced by the cell itself for specific purification and hereby to replace expensive columns. The „precipitator“ designed by our team contains a protein binding domain which complexes nickel and thus enables the binding of His-tagged proteins. After cell lysis the “precipitator” is freely dissolved in the cell lysate. To be able to isolate the “precipitator”-His-tagged-protein-complex from the other cell components it has to be immobilized by another protein domain. The part we designed for this function is the so-called plastic binding domain.
During routine phage display of random peptide libraries, phages were found that bound directly to the plastic surface of the used plastic micro titer plates. The number of plastic binding phages obtained during the phage display experiments depended on the saturation of the plastic micro titer plates with target protein for the antibody-binding phages and could be reduced by the use of blocking proteins as BSA or non-fat milk. Plastic binding phages were resistant to washing steps with PBS alone as well as to PBS in combination with BSA or non-fat dry milk. It was shown that plastic binding phages were even more difficult to recover by acid elution than the “normal” antibody binding phages (Adey et al., 1995).  
During routine phage display of random peptide libraries, phages were found that bound directly to the plastic surface of the used plastic micro titer plates. The number of plastic binding phages obtained during the phage display experiments depended on the saturation of the plastic micro titer plates with target protein for the antibody-binding phages and could be reduced by the use of blocking proteins as BSA or non-fat milk. Plastic binding phages were resistant to washing steps with PBS alone as well as to PBS in combination with BSA or non-fat dry milk. It was shown that plastic binding phages were even more difficult to recover by acid elution than the “normal” antibody binding phages (Adey et al., 1995).  
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Nils B. Adey et al. 1995 “Characterization of phage that bind plastic from phage-displayed random peptide libraries”
Nils B. Adey et al. 1995 “Characterization of phage that bind plastic from phage-displayed random peptide libraries”
Gene 156 (1995) 27-31 <br/>  
Gene 156 (1995) 27-31 <br/>  
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Alfredo Menendez & Jamie K. Scott 2005 “The nature of target-unrelated peptides recovered in the screening of phage-displayed random peptide libraries with  antibodies”
Alfredo Menendez & Jamie K. Scott 2005 “The nature of target-unrelated peptides recovered in the screening of phage-displayed random peptide libraries with  antibodies”
Anal. Biochem. 336 (2005) 145-157 <br/>  
Anal. Biochem. 336 (2005) 145-157 <br/>  
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L. A. Cantarero et al. 1980
L. A. Cantarero et al. 1980
“The absorptive characteristics of proteins for polystyrene and their significance in solid phase immunoassays”  
“The absorptive characteristics of proteins for polystyrene and their significance in solid phase immunoassays”  
Anal. Biochem. 105 (1980) 375-382 <br/>
Anal. Biochem. 105 (1980) 375-382 <br/>
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Ry Young et al. 2000
Ry Young et al. 2000
“Phages will out: strategies of host cell lysis”
“Phages will out: strategies of host cell lysis”
Trends in Microbiology Vol 8, Issue 3 (2000) 120-128<br/>
Trends in Microbiology Vol 8, Issue 3 (2000) 120-128<br/>
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Joel Berry et al. 2008
Joel Berry et al. 2008

Latest revision as of 03:51, 22 September 2011


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