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Team:Slovenia/Linker-extension standard.html
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| + | ==New developed linker-extension standard== | ||
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A new developed linker-extension standard is also described in detail under [http://dspace.mit.edu/bitstream/handle/1721.1/46705/BBFRFC37.pdf?sequence=1 BBF RFC37]. To improve the efficiency of cloning, we designed a NEW BioBrick standard that enables simplified and efficient linker extension between protein domains and at the same time preserve the characteristics of the most extensively used BioBrick standards. | A new developed linker-extension standard is also described in detail under [http://dspace.mit.edu/bitstream/handle/1721.1/46705/BBFRFC37.pdf?sequence=1 BBF RFC37]. To improve the efficiency of cloning, we designed a NEW BioBrick standard that enables simplified and efficient linker extension between protein domains and at the same time preserve the characteristics of the most extensively used BioBrick standards. | ||
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| - | Figure | + | Figure 1: Schematic presentation of basic elements of two linker-extension standards also named BB-NIC-II and BB-NIC-III vectors. Schematic presentation of linker extension using both variations of linker-extension standards. A basic BRICK is re-cloned into the linker-extension standard using suitable restriction sites to obtain either Thr-Gly, Ser-Gly or Pro-Gly extensions. |
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| + | ==Linker extension== | ||
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| + | Linker extension is not limited to the addition of only two amino acid residues between protein domains (Figure 3 – link). Each round of cloning into the linker-extension standard incorporates two additional amino acid residues. The step of re-cloning could be repeated indefinitely. | ||
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| + | ==Detailed cloning instructions== | ||
| + | Detailed cloning instruction using the linker-extension standard A or the linker-extension standard B, BioBrick-NIC-III, are described in Figure 4 (link) and Figure 5 (link). | ||
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Revision as of 08:14, 21 October 2009
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New developed linker-extension standard
Figure 1: Schematic presentation of basic elements of two linker-extension standards also named BB-NIC-II and BB-NIC-III vectors. Schematic presentation of linker extension using both variations of linker-extension standards. A basic BRICK is re-cloned into the linker-extension standard using suitable restriction sites to obtain either Thr-Gly, Ser-Gly or Pro-Gly extensions. Linker extension
Detailed cloning instructionsDetailed cloning instruction using the linker-extension standard A or the linker-extension standard B, BioBrick-NIC-III, are described in Figure 4 (link) and Figure 5 (link). |
