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This step aims to : | This step aims to : | ||
<ul> | <ul> | ||
− | <li> reduct | + | <li> reduct platinum ions (Platine Pt14) into nanoparticules</li> |
<li> bacterial flagellar protein adsorbs ions</li> | <li> bacterial flagellar protein adsorbs ions</li> | ||
<li> the ambient reducer power reduces ions into nanoparticules </li> | <li> the ambient reducer power reduces ions into nanoparticules </li> | ||
</ul> | </ul> | ||
− | <p>Deplanche & al.,2008 or Capeness & al.,2015 have shown that flagellar are high adsorber of platinum. Also, Urartu Ozgur & al., 2011 investigated that peptides can bind precious metal like gold, silver, platinum specifically. | + | <p><i>Deplanche & al.,2008</i> or <i>Capeness & al.,2015</i> have shown that flagellar are high adsorber of platinum. Also, Urartu Ozgur & al., 2011 investigated that peptides can bind precious metal like gold, silver, platinum specifically. |
The aim of our work is to create a Biobrick containing the flagellar sequence with a transcritpion control under strong promotor. Then on the part of the flagellin faced to the extarnal medium when the polymere is formed, an insertion restriction site will be inserted. Then specific precious metal peptides would be added using this insertion site to increase the level of adsorbsion specificity and yield. | The aim of our work is to create a Biobrick containing the flagellar sequence with a transcritpion control under strong promotor. Then on the part of the flagellin faced to the extarnal medium when the polymere is formed, an insertion restriction site will be inserted. Then specific precious metal peptides would be added using this insertion site to increase the level of adsorbsion specificity and yield. | ||
</p> | </p> |