Difference between revisions of "Part:BBa K243017:Design"
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− | ===Design Notes=== | + | ===Design Notes===<br> |
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+ | The composite part was cloned step by step. We started with the His-Tag and fused it to DigA. In the next step we fused the SplitLinker behind the DigA, in the final step we fused Fok_i to the construct. All cloning steps to fuse the single parts were accomplished according to the [https://parts.igem.org/Assembly_standard_25 RFC 25]. | ||
+ | The dimerization partner to this part needs another combination of anticaline and the protein domain Fok_a, because the labeled oligonucleotides had different anticalins.<br> | ||
+ | We applied the Streptavidine-tag to enable a simultaneous purification of constructs with a His-tag. Strep-tag shows also a higher affinity towards Strep-Tactin than His-tag. For that the purification with Strep-tag is more specific. The used DigA-tag allows the coupling to an Digoxigenin linked oligo. Emanating from our 3D modeling this combination of DigA tagged oligo and the construct containing the protein domain Fok_a is more efficiently than the use of a combination of FluA tagged oligo with a construct containing Fok_a. To avoid interactions between the DigA-tag with the connected protein domain Fok_a we applied the split Linker. This Linker is an improved part of the team Freiburg08 and it is a suitable linker for fusion proteins. The properties of the split linker are an good compromise between the stability and the distance for the connection between protein domain Fok_a and the anticalin tag.<br> | ||
+ | [https://static.igem.org/mediawiki/parts/0/04/Strepdigasplitfoka.txt Commented GenBank file] | ||
===Source=== | ===Source=== |
Latest revision as of 03:09, 22 October 2009
Strep-DigA-Split Linker-Fok_a
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21INCOMPATIBLE WITH RFC[21]Illegal BglII site found at 278
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000INCOMPATIBLE WITH RFC[1000]Illegal SapI.rc site found at 1132
===Design Notes===
The composite part was cloned step by step. We started with the His-Tag and fused it to DigA. In the next step we fused the SplitLinker behind the DigA, in the final step we fused Fok_i to the construct. All cloning steps to fuse the single parts were accomplished according to the RFC 25.
The dimerization partner to this part needs another combination of anticaline and the protein domain Fok_a, because the labeled oligonucleotides had different anticalins.
We applied the Streptavidine-tag to enable a simultaneous purification of constructs with a His-tag. Strep-tag shows also a higher affinity towards Strep-Tactin than His-tag. For that the purification with Strep-tag is more specific. The used DigA-tag allows the coupling to an Digoxigenin linked oligo. Emanating from our 3D modeling this combination of DigA tagged oligo and the construct containing the protein domain Fok_a is more efficiently than the use of a combination of FluA tagged oligo with a construct containing Fok_a. To avoid interactions between the DigA-tag with the connected protein domain Fok_a we applied the split Linker. This Linker is an improved part of the team Freiburg08 and it is a suitable linker for fusion proteins. The properties of the split linker are an good compromise between the stability and the distance for the connection between protein domain Fok_a and the anticalin tag.
Commented GenBank file
Source
Combined the parts by serial cloning steps.