Difference between revisions of "Part:BBa K4229074"
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<partinfo>BBa_K4229074 short</partinfo> | <partinfo>BBa_K4229074 short</partinfo> | ||
| − | .... | + | Short Description: |
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| + | The Y96X variant of BMC-T1 was created using site-directed mutagenesis, aiming to insert a non-canonical amino acid at position 8 of the peptide sequence by amber stop codon. The BMC-T1_Y96X can only be completely synthesized upon successful amber stop codon suppression. Hence, BMC-T1_Y96X can be used to create a ncAA modified shell protein for the assembly of a synthetic carboxysome. | ||
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| + | Usage: | ||
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| + | Besides the well-known 20 canonical amino acids, there is a variety of non-canonical amino acids which can be used to further modify proteins. One way of incorporating non-canonical amino acids is via the amber stop codon suppression technology. This part BMC-T1_Y96X, is a model protein to test non-canonical amino acid incorporation. Without successful incorporation, a non-functional version of BMC-T1 will be translated, and the synthetic carboxysome cannot form. However, after successful incorporation of the non-canonical amino acid, translation will go on as normal and the synthetic carboxysome can form. | ||
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| + | Characterization: | ||
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| + | The incorporation of non-canonical amino acids into BMC-T1_Y96X was characterized using SDS-PAGE, Western blot, and antibody decoration. As an orthogonal translation system, an additional aminoacyl-tRNA synthetase and its corresponding tRNA are used, which in this case correspond to the pBpf synthetase, which incorporates 4-Benzoyl-l-phenylalanine. | ||
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| + | [[File:T1MutWestern.jpg|800px|thumb|left|Figure text: SDS-PAGE with whole cell lysis confirming the incorporation of pAzF at position 8, 35, 78 and 96 of the BMC-T1 protein. The cells grew until OD 0.4, following the addition of arabinose and a growth period of 2 h. After the 2 h the cells were treated with IPTG and grew 24 hours before harvesting by centrifugation. The BlueClassic Prestained Protein Marker, 10-180 kDa from Jena Bioscience was used as ladder. To purify the protein, the His-Spin Protein Miniprep from Zymo Research was used. ]] | ||
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| + | The plasmid containing this protein was kindly sent to us by the Kerfeld group. | ||
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| + | H. Kirst and C. A. Kerfeld, “Bacterial microcompartments: Catalysis-enhancing metabolic modules for next-generation metabolic and biomedical engineering,” BMC Biol., vol. 17, no. 1, pp. 1–11, 2019, DOI: 10.1186/s12915-019-0691-z. | ||
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<!-- Add more about the biology of this part here | <!-- Add more about the biology of this part here | ||
Revision as of 20:21, 10 October 2022
BMC-T1_Y96TAG
Short Description:
The Y96X variant of BMC-T1 was created using site-directed mutagenesis, aiming to insert a non-canonical amino acid at position 8 of the peptide sequence by amber stop codon. The BMC-T1_Y96X can only be completely synthesized upon successful amber stop codon suppression. Hence, BMC-T1_Y96X can be used to create a ncAA modified shell protein for the assembly of a synthetic carboxysome.
Usage:
Besides the well-known 20 canonical amino acids, there is a variety of non-canonical amino acids which can be used to further modify proteins. One way of incorporating non-canonical amino acids is via the amber stop codon suppression technology. This part BMC-T1_Y96X, is a model protein to test non-canonical amino acid incorporation. Without successful incorporation, a non-functional version of BMC-T1 will be translated, and the synthetic carboxysome cannot form. However, after successful incorporation of the non-canonical amino acid, translation will go on as normal and the synthetic carboxysome can form.
Characterization:
The incorporation of non-canonical amino acids into BMC-T1_Y96X was characterized using SDS-PAGE, Western blot, and antibody decoration. As an orthogonal translation system, an additional aminoacyl-tRNA synthetase and its corresponding tRNA are used, which in this case correspond to the pBpf synthetase, which incorporates 4-Benzoyl-l-phenylalanine.
The plasmid containing this protein was kindly sent to us by the Kerfeld group.
H. Kirst and C. A. Kerfeld, “Bacterial microcompartments: Catalysis-enhancing metabolic modules for next-generation metabolic and biomedical engineering,” BMC Biol., vol. 17, no. 1, pp. 1–11, 2019, DOI: 10.1186/s12915-019-0691-z.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12INCOMPATIBLE WITH RFC[12]Illegal NotI site found at 706
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25INCOMPATIBLE WITH RFC[25]Illegal NgoMIV site found at 36
Illegal AgeI site found at 510
Illegal AgeI site found at 618 - 1000COMPATIBLE WITH RFC[1000]