Team:Yale/Project
From 2011.igem.org
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<b>Cloning:</b> | <b>Cloning:</b> | ||
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- | <li><img src="https://static.igem.org/mediawiki/2011/8/89/Yale-cloning.jpg" style="float:right; margin: | + | <li><img src="https://static.igem.org/mediawiki/2011/8/89/Yale-cloning.jpg" style="float:right; margin: 10px;" />Fourteen new biobricks were successfully cloned. Four of which were cloned into in the pSB1C3 vector and submitted to the registry. The type III ZeAFP protein and TmAFP been previously characterized in the literature and are now in the registry for other teams to use. Our project primarily focused on extensively characterizing our RiAFP biobrick, as very little is currently known about the structure or function of this protein. All parts were verified by fully sequencing them by our team.</li> |
<li>We improved upon the existing TmAFP biobrick in the registry. Team Tokyo Tech 2009 previously submitted a biobrick of the Tenebrio Molitor antifreeze protein, TmAFP (BBa_K193209). However, this biobrick contains an internal EcoRI site and is therefore incompatible with BBF RFC10. Additionally, the TmAFP protein in the Tokyo Tech part seems to be truncated. Our TmAFP part is RFC10 compatible, and includes the full sequence of this protein. Our sequence was obtained from the Fass Lab, and is reported on in the following paper: Bar, M., Bar-Ziv, R., Scherf, T. & Fass, D. Efficient production of a folded and functional, highly disulfide-bonded [beta]-helix antifreeze protein in bacteria. Protein Expression and Purification 48, 243-252 (2006).</li> | <li>We improved upon the existing TmAFP biobrick in the registry. Team Tokyo Tech 2009 previously submitted a biobrick of the Tenebrio Molitor antifreeze protein, TmAFP (BBa_K193209). However, this biobrick contains an internal EcoRI site and is therefore incompatible with BBF RFC10. Additionally, the TmAFP protein in the Tokyo Tech part seems to be truncated. Our TmAFP part is RFC10 compatible, and includes the full sequence of this protein. Our sequence was obtained from the Fass Lab, and is reported on in the following paper: Bar, M., Bar-Ziv, R., Scherf, T. & Fass, D. Efficient production of a folded and functional, highly disulfide-bonded [beta]-helix antifreeze protein in bacteria. Protein Expression and Purification 48, 243-252 (2006).</li> | ||
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Revision as of 13:22, 28 September 2011