Difference between revisions of "Part:BBa K2406082"
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Karimova, M., Abi-Ghanem, J., Berger, N., Surendranath, V., Pisabarro, M.T., Buchholz, F. 2013 “Vika/vox, a novel efficient and specific Cre/loxP-like site-specific recombination system”. Nucleic Acids Research 41(2):e37. | Karimova, M., Abi-Ghanem, J., Berger, N., Surendranath, V., Pisabarro, M.T., Buchholz, F. 2013 “Vika/vox, a novel efficient and specific Cre/loxP-like site-specific recombination system”. Nucleic Acids Research 41(2):e37. | ||
==Sequences== | ==Sequences== | ||
+ | File below confirms sequences of generator and all test constructs used. | ||
[[Media:File:Sequencing Results Edinburgh UG.zip]] | [[Media:File:Sequencing Results Edinburgh UG.zip]] | ||
Latest revision as of 20:16, 28 October 2017
Vika Recombinase Inducible Generator
Introduction
Vika is a tyrosine recombinase that catalyses recombination between Vox target sites [1]. This can lead to integration, excision, or inversion of the DNA sequence in between these target sites. This is an example of a site-specific recombinase (SSR). SSRs have long been recognised to be excellent biological tools, used in conditional gene knock-outs and dynamic events to change gene expression in cells [1]. Therefore, we sought to create a toolkit of these recombinase parts, the fundamental units of which are recombinase generators. Here, Vika is under the control of our inducible T7 promoter BBa_K2406020. We then tested its activity using our measurement constructs, described in the adjacent figure. Essentially, a terminator was flanked by two recombinase target sites. When the recombinase could recognise both sites, it recombination would occur and the terminator would be excised, producing RFP output. This test was useful for two reasons. For one, it demonstrated that our recombinase proteins could work, as they would excise their associated target sites. Also, it demonstrated which target sites the recombinase would recognise that were not formally associated with it. This is important because researchers have claimed this recombinase is orthogonal to other popular tyrosine recombinases [1], but this has not been extensively tested.
Results
Results are summarised in the adjacent figure. Vika was shown to excise the terminator when it recognised the two Vox sites it was expected to excise on measurement construct BBa_K2406053. Little cross-reactivity was observed with Rox, Vlox, and Lox (BBa_K2406000, BBa_K2406002, BBa_K1680005) when tested on measurement constructs BBa_K2406073, BBa_K2406067, and BBa_K2406075.
Discussion
We have demonstrated our Vika recombinase part performs the basic recombination event that is expected of it, i.e. it recognises its associated target sites and catalyses recombination between them. RFP output when recombination occurs is much higher than output when there is no recombination or cross-reactivity. RFP output in observed in the un-induced control can be explained by leakiness inherent to the T7-LacO promoter we used, BBa_K2406020. There was no observed cross-reactivity with other target sites. This confirms that the Vika recombinase and Dre, VCre, and Cre recombinases BBa_K2406081 BBa_K2406083 BBa_K2406080 can be used in an orthogonal manner in one cell. This opens up exciting possibilities for multiple, dynamic gene editing events within one cell.
References
Karimova, M., Abi-Ghanem, J., Berger, N., Surendranath, V., Pisabarro, M.T., Buchholz, F. 2013 “Vika/vox, a novel efficient and specific Cre/loxP-like site-specific recombination system”. Nucleic Acids Research 41(2):e37.
Sequences
File below confirms sequences of generator and all test constructs used. Media:File:Sequencing Results Edinburgh UG.zip
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21INCOMPATIBLE WITH RFC[21]Illegal XhoI site found at 1193
- 23COMPATIBLE WITH RFC[23]
- 25INCOMPATIBLE WITH RFC[25]Illegal NgoMIV site found at 358
- 1000COMPATIBLE WITH RFC[1000]