Difference between revisions of "Part:BBa K243018"
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This composite part is one part of our universal endonuclease and it needs another composite part like BBa_K243024 to built to a functional heterodimer. The DigA tag leads the part to DNA which is hybridized with an Digoxigenin labeled oligonucleotide. The split linker makes a distance from 51bp between the DigA and the linked Fok_i protein domain. The His-Tag serve as purification tag for Ni-NTA column purification. | This composite part is one part of our universal endonuclease and it needs another composite part like BBa_K243024 to built to a functional heterodimer. The DigA tag leads the part to DNA which is hybridized with an Digoxigenin labeled oligonucleotide. The split linker makes a distance from 51bp between the DigA and the linked Fok_i protein domain. The His-Tag serve as purification tag for Ni-NTA column purification. | ||
| − | We applied the His-tag to enable a simultaneous purification of constructs with a Strep-tag. The used DigoxigeninA-tag allows the coupling to an flurescein linked oligo. Emanating from our 3D modeling this combination of DigA tagged oligos and the construct containing the protein domain Fok_i is not that efficiently than the use of a combination of | + | We applied the His-tag to enable a simultaneous purification of constructs with a Strep-tag. The used DigoxigeninA-tag allows the coupling to an flurescein linked oligo. Emanating from our 3D modeling this combination of DigA tagged oligos and the construct containing the protein domain Fok_i is not that efficiently than the use of a combination of FluA tagged oligos with a construct containing Fok_i. To avoid interactions between the DigA-tag with the connected protein domain Fok_i we applied the Split Linker. The Linker itself has no influence of the connected parts. We decided to use the Split Linker for this construct to get a longer distance between DigA-tag and Fok_i to guarantee the independent function of both parts. This Linker is an improved part of the team Freiburg08 and it is a suitable linker for fusion proteins. |
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Revision as of 21:03, 21 October 2009
His-DigA-Split Linker-Fok_i
This combination uses the benefits of an His-tag (Polyhistidin-tag) for purification. It is also linked with a DigoxigenineA-tag DigA. The Split Linker connects the parts and adds additional space between them to guarantee the independent function of DigA-tag and the protein domain Fok_i.
Usage and Biology
This composite part is one part of our universal endonuclease and it needs another composite part like BBa_K243024 to built to a functional heterodimer. The DigA tag leads the part to DNA which is hybridized with an Digoxigenin labeled oligonucleotide. The split linker makes a distance from 51bp between the DigA and the linked Fok_i protein domain. The His-Tag serve as purification tag for Ni-NTA column purification.
We applied the His-tag to enable a simultaneous purification of constructs with a Strep-tag. The used DigoxigeninA-tag allows the coupling to an flurescein linked oligo. Emanating from our 3D modeling this combination of DigA tagged oligos and the construct containing the protein domain Fok_i is not that efficiently than the use of a combination of FluA tagged oligos with a construct containing Fok_i. To avoid interactions between the DigA-tag with the connected protein domain Fok_i we applied the Split Linker. The Linker itself has no influence of the connected parts. We decided to use the Split Linker for this construct to get a longer distance between DigA-tag and Fok_i to guarantee the independent function of both parts. This Linker is an improved part of the team Freiburg08 and it is a suitable linker for fusion proteins.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21INCOMPATIBLE WITH RFC[21]Illegal BglII site found at 272
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]