Difference between revisions of "Part:BBa K3185004"
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20cm of PET fibers were soaked in protein solutions, then washed in TBST for 5min three times. Washed fibers were soaked in 50µL of 2x SDS sample buffer. Bounded proteins were eluted with boiling. SDS-PAGE for 40min in 200V. CBB stained. | 20cm of PET fibers were soaked in protein solutions, then washed in TBST for 5min three times. Washed fibers were soaked in 50µL of 2x SDS sample buffer. Bounded proteins were eluted with boiling. SDS-PAGE for 40min in 200V. CBB stained. | ||
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+ | [[File:fiber graph.png|300px|thumb|left|Fig.7b BaCBM2 bind most to PET fiber | ||
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+ | SDS-PAGE’s gel band intensity quantified with ImageJ. The y-axis shows amounts of protein which bind to 20cm PET fiber.]] | ||
==References== | ==References== |
Revision as of 10:16, 19 October 2019
SPYCatcher -> BaCBM2
Usage and Biology
BaCBM2 is a Carbohydrate-Binding Module (CBM) from Bacillus anthracis. CBM often found in Carbohydrate related enzymes. It can bind to not only highly crystallized cellulose but also PET because it has a binding site formed by aromatic amino acids[1].In this paper, they research binding affinity of some kinds of CBM and PET. As a result, it is found that BaCBM2 has the most strong binding affinity to PET[2].
We used BaCBM2 as PET binding domain. We put SpyCatcher on N-terminus of BaCBM2 because we used SpyTag/SpyCatcher system to bind it to other parts(SpyCatcher:BBa_K1159200, SpyTag:BBa_K1159201). Also, this has three tag and cleavage sites. First is 6×His-tag inserted in the N-terminus of SpyC for protein purification. Second is MYC-tag inserted between SpyC and CBM to detect it by using the antibody. Third is a TEV protease site because, in the paper, it was used for protein purification[3]. However, we didn’t use it in our experiment.
We put it between BamHI site and Ndel site on pET11-a. We used BL21 (DE3) for gene expression. We used Ni-NTA Agarose for purification. After that, we confirmed molecular weight of BaCBM2 by using SDS-PAGE.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]
Purification
Expression
- Cells were grown in 200ml LB media (100μg/ml Ampicillin) at 37oC shaking at 140 rpm to an OD600 of 0.5, verifying via a spectrophotometer.
- Protein was expressed in 0.1mM IPTG for 2hours.
SDS-PAGE
Result
References
1 Boraston, A.B., Bolam, D.N., Gilbert, H.J., and Davies, G.J. (2004).
Carbohydrate-binding modules: Fine-tuning polysaccharide recognition.
Biochem. J. 382, 769–781.
2 Veggiani, G., Nakamura, T., Brenner, M.D., Gayet, R. V., Yan, J., Robinson, C. V., and Howarth, M. (2016).
Programmable polyproteams built using twin peptide superglues.
Proc. Natl. Acad. Sci. U. S. A. 113, 1202–1207.
3 Weber, J., Petrović, D., Strodel, B., Smits, S.H.J., Kolkenbrock, S., Leggewie, C., and Jaeger, K.E. (2019).
Interaction of carbohydrate-binding modules with poly(ethylene terephthalate).
Appl. Microbiol. Biotechnol. 103, 4801–4812.