Difference between revisions of "Part:BBa K5317003"
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The MRE-sites containing promoter enables the metal-dependent expression of a downstream positioned reporter gene via the metal ion-dependent transcription factor MTF-1 (BBa_K5317007) for cell-based metal-detection. | The MRE-sites containing promoter enables the metal-dependent expression of a downstream positioned reporter gene via the metal ion-dependent transcription factor MTF-1 (BBa_K5317007) for cell-based metal-detection. | ||
| − | The varying Metal Responsive Elements (MREs) upstream of the eukaryotic metallothionein (MT) gene were discovered in the early 80s (Carter ''et al.'' 1984, Stuart ''et al.'' 1985). All MREs a-d carry core consensus sites (TGCRCNC) to which the primary MRE-binding transcription factor MTF-1 can bind after binding to heavy metal ions and translocating into the nucleus. Physiologically, this leads to the expression of metallothionein, a protein capable of binding metals such as zinc, cadmium, copper and others for metal homeostasis and detoxification (Cousins 1983). | + | The varying Metal Responsive Elements (MREs) upstream of the eukaryotic metallothionein (MT) gene were discovered in the early 80s (Carter ''et al.'' 1984, Stuart ''et al.'' 1985). All MREs a-d carry core consensus sites (TGCRCNC) to which the primary MRE-binding transcription factor MTF-1 can bind after binding to heavy metal ions and translocating into the nucleus (Wang ''et al.'' 2004). Physiologically, this leads to the expression of metallothionein, a protein capable of binding metals such as zinc, cadmium, copper and others for metal homeostasis and detoxification (Cousins 1983). The arrangement of the MREs in our promoter construct was inspired by publications from Glanville ''et al.'' (1981) and Searle ''et al.'' (1985), maintaining the order of MREs from the physiological murine MT-1 promoter. |
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Cousins R. J. (1983). Metallothionein--aspects related to copper and zinc metabolism. Journal of inherited metabolic disease, 6 Suppl 1, 15–21. https://doi.org/10.1007/BF01811318 | Cousins R. J. (1983). Metallothionein--aspects related to copper and zinc metabolism. Journal of inherited metabolic disease, 6 Suppl 1, 15–21. https://doi.org/10.1007/BF01811318 | ||
| − | Stuart, G. W., Searle, P. F., & Palmiter, R. D. (1985). Identification of multiple metal regulatory elements in mouse metallothionein-I promoter by assaying synthetic sequences. Nature, 317(6040), 828–831. https://doi.org/10.1038/317828a0 | + | Glanville, N., Durnam, D. M., & Palmiter, R. D. (1981). Structure of mouse metallothionein-I gene and its mRNA. Nature, 292(5820), 267–269. https://doi.org/10.1038/292267a0 |
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| + | Searle, P. F., Stuart, G. W., & Palmiter, R. D. (1985). Building a metal-responsive promoter with synthetic regulatory elements. Molecular and cellular biology, 5(6), 1480–1489. https://doi.org/10.1128/mcb.5.6.1480-1489.1985 | ||
| + | |||
| + | Stuart, G. W., Searle, P. F., & Palmiter, R. D. (1985). Identification of multiple metal regulatory elements in mouse metallothionein-I promoter by assaying synthetic sequences. Nature, 317(6040), 828–831. https://doi.org/10.1038/317828a0# | ||
| + | |||
| + | Wang, Y., Lorenzi, I., Georgiev, O., & Schaffner, W. (2004). Metal-responsive transcription factor-1 (MTF-1) selects different types of metal response elements at low vs. high zinc concentration. Biological chemistry, 385(7), 623–632. https://doi.org/10.1515/BC.2004.077 | ||
Revision as of 19:12, 14 September 2024
MREwt promoter
Usage and Biology
The MRE-sites containing promoter enables the metal-dependent expression of a downstream positioned reporter gene via the metal ion-dependent transcription factor MTF-1 (BBa_K5317007) for cell-based metal-detection.
The varying Metal Responsive Elements (MREs) upstream of the eukaryotic metallothionein (MT) gene were discovered in the early 80s (Carter et al. 1984, Stuart et al. 1985). All MREs a-d carry core consensus sites (TGCRCNC) to which the primary MRE-binding transcription factor MTF-1 can bind after binding to heavy metal ions and translocating into the nucleus (Wang et al. 2004). Physiologically, this leads to the expression of metallothionein, a protein capable of binding metals such as zinc, cadmium, copper and others for metal homeostasis and detoxification (Cousins 1983). The arrangement of the MREs in our promoter construct was inspired by publications from Glanville et al. (1981) and Searle et al. (1985), maintaining the order of MREs from the physiological murine MT-1 promoter.
Cloning
Theoretical Part Design
The MREwt promoter was synthesized and please visit the K53170xx registry entry for functionality analysis .
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]
References
Carter, A. D., Felber, B. K., Walling, M. J., Jubier, M. F., Schmidt, C. J., & Hamer, D. H. (1984). Duplicated heavy metal control sequences of the mouse metallothionein-I gene. Proceedings of the National Academy of Sciences of the United States of America, 81(23), 7392–7396. https://doi.org/10.1073/pnas.81.23.7392
Cousins R. J. (1983). Metallothionein--aspects related to copper and zinc metabolism. Journal of inherited metabolic disease, 6 Suppl 1, 15–21. https://doi.org/10.1007/BF01811318
Glanville, N., Durnam, D. M., & Palmiter, R. D. (1981). Structure of mouse metallothionein-I gene and its mRNA. Nature, 292(5820), 267–269. https://doi.org/10.1038/292267a0
Searle, P. F., Stuart, G. W., & Palmiter, R. D. (1985). Building a metal-responsive promoter with synthetic regulatory elements. Molecular and cellular biology, 5(6), 1480–1489. https://doi.org/10.1128/mcb.5.6.1480-1489.1985
Stuart, G. W., Searle, P. F., & Palmiter, R. D. (1985). Identification of multiple metal regulatory elements in mouse metallothionein-I promoter by assaying synthetic sequences. Nature, 317(6040), 828–831. https://doi.org/10.1038/317828a0#
Wang, Y., Lorenzi, I., Georgiev, O., & Schaffner, W. (2004). Metal-responsive transcription factor-1 (MTF-1) selects different types of metal response elements at low vs. high zinc concentration. Biological chemistry, 385(7), 623–632. https://doi.org/10.1515/BC.2004.077