Difference between revisions of "Part:BBa K4347012"
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Our team was successfully able to express this protien in E.coli and purify through nickel chromatography. We also confirmed our result through a Western Blot. | Our team was successfully able to express this protien in E.coli and purify through nickel chromatography. We also confirmed our result through a Western Blot. | ||
+ | [[File:BBa K4347012 expression Sso7d.PNG|250px|center|thumb|SDS-PAGE gels for Sso7d fusion protien after expression and purification. Crude, supernatant, pellet, and elution samples for both uninduced and IPTG-induced proteins are displayed. Band at 74.6 kDa indicates successful purification.]] | ||
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Revision as of 03:30, 2 October 2022
Bst fusion with Sso7d and point mutations for enhanced thermal stability codon optimized for E.coli
Contents
This fusion protien was designed by linking the N-terminus of a modified Bst polymerase with thermostable DNA binding protien Sso7d using a flexible (GGGGS)4 linker to increase polymerase thermostability and processivity in LAMP reaction.
Usage and Biology
Bst polymerase Large Fragment is a family I DNA polymerase derived from the thermophilic bacterium Geobacillus stearothermophilus. Bst polymerase Large Fragment is notable for its strong strand displacement activity and thermal stability [1]. Bst also contains a 5' to 3' DNA polymerase activity but lacks 3' to 5' exonuclease activity[2]. These unique features allow Bst polymerase to facilitate isothermal amplification techniques such as LAMP and rt-LAMP. Three point mutations were introduced at positions K549W, K582L, and Q584L in the thumb domain to improve polymerase thermal stability.
Sso7d is part of the 7 kDa DNA-binding family and is a highly thermostable and pH resistant protien that aids in the binding of double stranded DNA.[3]. Sso7d is thermally stable to 100°C and has been shown to promote annealing of complementary DNA strands, induces negative supercoiling and chaperones the disassembly and renaturation of protien aggregates in an ATP hydrolysis-dependent manner. [4]
Results
We modelled this fusion polymerase using FoldX and Pymol to ensure the structures did not interfere.
Our team was successfully able to express this protien in E.coli and purify through nickel chromatography. We also confirmed our result through a Western Blot.
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21INCOMPATIBLE WITH RFC[21]Illegal BamHI site found at 5
Illegal XhoI site found at 209 - 23COMPATIBLE WITH RFC[23]
- 25INCOMPATIBLE WITH RFC[25]Illegal AgeI site found at 1015
- 1000COMPATIBLE WITH RFC[1000]
References
1. Ignatov, K. B., Barsova, E. V., Fradkov, A. F., Blagodatskikh, K. A., Kramarova, T. V., & Kramarov, V. M. (2014). A strong strand displacement activity of thermostable DNA polymerase markedly improves the results of DNA amplification. BioTechniques, 57(2), 81–87. https://doi.org/10.2144/000114198
2. Aliotta JM, Pelletier JJ, Ware JL, Moran LS, Benner JS, Kong H (1996). Thermostable Bst DNA polymerase I lacks a 3'-->5' proofreading exonuclease activity. (5-6):185-95. PMID: 8740835
3. Kalichuk, V., Béhar, G., Renodon-Cornière, A., Danovski, G., Obal, G., Barbet, J., Mouratou, B., & Pecorari, F. (2016). The archaeal “7 KDA DNA-binding” proteins: Extended characterization of an old gifted family. Scientific Reports, 6(1). https://doi.org/10.1038/srep37274