Difference between revisions of "Team:Queens Canada/AFP Scaffold"
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<h1>DESIGN & CLONING </h1> | <h1>DESIGN & CLONING </h1> | ||
− | <p>In the planning of the Ice Queen, two key considerations were taken. First, a scaffold unit had to be selected in addition to a method of attachment for the AFPs and scaffold subunits. The singe subunit, T3-10 self-assembling cage (PDB: 4EGG) and the E/K coil system (PDB: 1U0I) were selected for these roles respectively. More information on the selection and modeling performed on the designed structure is provided in <a href=" | + | <p>In the planning of the Ice Queen, two key considerations were taken. First, a scaffold unit had to be selected in addition to a method of attachment for the AFPs and scaffold subunits. The singe subunit, T3-10 self-assembling cage (PDB: 4EGG) and the E/K coil system (PDB: 1U0I) were selected for these roles respectively. More information on the selection and modeling performed on the designed structure is provided in <a href="https://2015.igem.org/Team:Queens_Canada/Background">Background</a> and <a href="https://2015.igem.org/Team:Queens_Canada/Modeling">Modeling</a>. </p> |
− | <p>Type III AFP was selected for use with our protein scaffold because of its moderate activity and well-resolved structure. Minimal cysteine residues meant little potential for incorrect disulfide forming, making it ideal for use in recombinant plasmids. The Davies lab graciously provided us with the QAE isoform (PDB: 1AME) of the antifreeze protein in a pET20-b vector, which has a C-terminal His-tag. While we used ice-affinity purification the His-tag would allow users without access to the ice-affinity purification apparatus to purify the protein in a single step (BBa_K1831001). We also created a variation on the construct without a His-tag (BBa_K1831003), which can be purified using the ice affinity technique. This practice enables simple separation of the AFP from any His-tagged protein, such as our T3-10 scaffold construct (BBa_K1831002). More information of the BioBricks can be found on the <a href=" | + | <p>Type III AFP was selected for use with our protein scaffold because of its moderate activity and well-resolved structure. Minimal cysteine residues meant little potential for incorrect disulfide forming, making it ideal for use in recombinant plasmids. The Davies lab graciously provided us with the QAE isoform (PDB: 1AME) of the antifreeze protein in a pET20-b vector, which has a C-terminal His-tag. While we used ice-affinity purification the His-tag would allow users without access to the ice-affinity purification apparatus to purify the protein in a single step (BBa_K1831001). We also created a variation on the construct without a His-tag (BBa_K1831003), which can be purified using the ice affinity technique. This practice enables simple separation of the AFP from any His-tagged protein, such as our T3-10 scaffold construct (BBa_K1831002). More information of the BioBricks can be found on the <a href="https://2015.igem.org/Team:Queens_Canada/Background">Parts page</a>. </p> |
<div id="AFPEcoildes"> | <div id="AFPEcoildes"> |
Revision as of 17:32, 17 September 2015