Difference between revisions of "Part:BBa K4347007"
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===Enhanced Thermal stability=== | ===Enhanced Thermal stability=== | ||
− | The origional codon optimized Bst polymerase (Part BBa_K3790000) was improved upon to further enhance the polymerases thermal stability such that it can carry out LAMP at a higher reaction temperature. Three point mutations were made in the polymerase thumb domain: K549W, K582L and Q584L. The increased thermal stability from these point mutations was validated using a protien simulation program called YASARA. The overall change in Gibbs free energy of wild-type Bst was calculated to be -150.13 | + | The origional codon optimized Bst polymerase (Part BBa_K3790000) was improved upon to further enhance the polymerases thermal stability such that it can carry out LAMP at a higher reaction temperature. Three point mutations were made in the polymerase thumb domain: K549W, K582L and Q584L. The increased thermal stability from these point mutations was validated using a protien simulation program called YASARA. The overall change in Gibbs free energy of wild-type Bst was calculated to be -150.13 kcal/mol, and the overall stability of the mutated Bst was calculated to be -151.81 kcal/mol thus indicative of a more thermally stable protein. |
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Revision as of 19:18, 12 July 2022
Bst with point mutations for enhanced thermal stability codon optimized for E.coli
This part is an improvement from Bst Polymerase I (large fragment) for E.coli from the 2021 iGEM Fudan team: https://parts.igem.org/Part:BBa_K3790000.
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.
Bst polymerase large fragment is structurally homologous to KlenTaq polymerase (large fragment of Taq polymerase used in PCR) [3] and Klenow fragment (large fragment of DNA polymerase I in E. coli) [4].
Enhanced Thermal stability
The origional codon optimized Bst polymerase (Part BBa_K3790000) was improved upon to further enhance the polymerases thermal stability such that it can carry out LAMP at a higher reaction temperature. Three point mutations were made in the polymerase thumb domain: K549W, K582L and Q584L. The increased thermal stability from these point mutations was validated using a protien simulation program called YASARA. The overall change in Gibbs free energy of wild-type Bst was calculated to be -150.13 kcal/mol, and the overall stability of the mutated Bst was calculated to be -151.81 kcal/mol thus indicative of a more thermally stable protein.
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25INCOMPATIBLE WITH RFC[25]Illegal AgeI site found at 766
- 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. Milligan, J. N., Shroff, R., Garry, D. J., & Ellington, A. D. (2018). Evolution of a thermophilic strand-displacing polymerase using high-temperature isothermal compartmentalized self-replication. Biochemistry, 57(31), 4607–4619. https://doi.org/10.1021/acs.biochem.8b00200
4.Kiefer, J. R., Mao, C., Hansen, C. J., Basehore, S. L., Hogrefe, H. H., Braman, J. C., & Beese, L. S. (1997, February). Crystal structure of a Thermostable Bacillus DNA polymerase I large Fragment at 2.1A Resolution. ResearchGate. Retrieved July 11, 2022, from https://www.researchgate.net/publication/14191850_Crystal_Structure_of_a_Thermostable_Bacillus_DNA_Polymerase_I_Large_Fragment_at_21_A_Resolution