Difference between revisions of "Part:BBa K567013"
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<partinfo>BBa_K567013 short</partinfo> | <partinfo>BBa_K567013 short</partinfo> | ||
− | tRNA(Asp) with its anticodon mutated to CUA (base pairing stop codon UAG) and under the control of ''aspV'' promoter. This biobrick is constructed first by cloning the tRNA(Asp) from | + | tRNA(Asp) with its anticodon mutated to CUA (base pairing stop codon UAG) and under the control of ''aspV'' promoter. This biobrick is constructed first by cloning the tRNA(Asp) from ''aspV'' in E.coli, then the anticodon region is site-directed mutated. |
===Construction of BBa_K567013=== | ===Construction of BBa_K567013=== | ||
− | This biobrick is constructed first by cloning the tRNA<sup>Asp</sup> from '' | + | This biobrick is constructed first by cloning the tRNA<sup>Asp</sup> from ''aspV'' in ''E.coli'', then the anticodon region is site-directed mutated. This part is constructed on the backbone plasmid pACYC184. |
===Characterization of BBa_K567013=== | ===Characterization of BBa_K567013=== | ||
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We have used P''bla''-Luc-TAG as our Reporter. The amount of luciferase produced is reflected using the bioluminescence emitted during the luciferin reaction. Our results demonstrate that this part can suppress TAG insertion into luciferase. In the experimental group, with the help of BBa_K567011 PT7-TDRS (Favorite Part), luciferase-TAG was produced and bioluminescence was emitted during the luciferin reaction. '''These results proved that this tRNA<sup>Asp</sup> can effectively suppress stop codon. | We have used P''bla''-Luc-TAG as our Reporter. The amount of luciferase produced is reflected using the bioluminescence emitted during the luciferin reaction. Our results demonstrate that this part can suppress TAG insertion into luciferase. In the experimental group, with the help of BBa_K567011 PT7-TDRS (Favorite Part), luciferase-TAG was produced and bioluminescence was emitted during the luciferin reaction. '''These results proved that this tRNA<sup>Asp</sup> can effectively suppress stop codon. | ||
− | [[image:11SJTU-stop-codon_switch.jpg|frame|center| | + | [[image:11SJTU-stop-codon_switch.jpg|frame|center|Fig. Functional Analysis of Stop-Codon Switch. ER2566 cannot produce luciferase with BBa_K567003 Pbla-Luc-TAG only. When BBa_K567011 PT7-TDRS (Favorite Part) and BBa_K567013 tRNA<sup>Asp</sup>-TAG (Favorite Part) are also transformed into the cell, luciferase is produced. The results proved Stop-Codon Switch as a strict molecular switch without background noise.This tRNA<sup>Asp</sup> is part of the Stop-Codon Switch]] |
Revision as of 01:01, 6 October 2011
tRNA(Asp)-TAG
tRNA(Asp) with its anticodon mutated to CUA (base pairing stop codon UAG) and under the control of aspV promoter. This biobrick is constructed first by cloning the tRNA(Asp) from aspV in E.coli, then the anticodon region is site-directed mutated.
Construction of BBa_K567013
This biobrick is constructed first by cloning the tRNAAsp from aspV in E.coli, then the anticodon region is site-directed mutated. This part is constructed on the backbone plasmid pACYC184.
Characterization of BBa_K567013
This part acts as a stop codon suppressor tRNA. It can be charged with Asp.
We have used Pbla-Luc-TAG as our Reporter. The amount of luciferase produced is reflected using the bioluminescence emitted during the luciferin reaction. Our results demonstrate that this part can suppress TAG insertion into luciferase. In the experimental group, with the help of BBa_K567011 PT7-TDRS (Favorite Part), luciferase-TAG was produced and bioluminescence was emitted during the luciferin reaction. These results proved that this tRNAAsp can effectively suppress stop codon.
Sequence and Features
- 10INCOMPATIBLE WITH RFC[10]Illegal EcoRI site found at 281
- 12INCOMPATIBLE WITH RFC[12]Illegal EcoRI site found at 281
- 21INCOMPATIBLE WITH RFC[21]Illegal EcoRI site found at 281
- 23INCOMPATIBLE WITH RFC[23]Illegal EcoRI site found at 281
- 25INCOMPATIBLE WITH RFC[25]Illegal EcoRI site found at 281
- 1000COMPATIBLE WITH RFC[1000]