Difference between revisions of "Part:BBa K3725040"
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<strong>Overview</strong> | <strong>Overview</strong> | ||
| − | The T7 Phytophthora Trigger is designed to be used in conjunction with the T7 promoter to induce GFP expression for Lambert iGEM’s P. Cryptogea toehold biosensor. When the trigger RNA sequence is present, it binds to the complementary sequence in the toehold switch and unravels the hairpin loop allowing the reporter protein (GFP) to be expressed, producing green fluorescence. The sequence was designed via NUPACK using an input code provided by Takahashi et. al. We ordered the insert in a pUCIDT Kan plasmid | + | |
| + | The T7 Phytophthora Trigger is designed to be used in conjunction with the T7 promoter to induce GFP expression for Lambert iGEM’s P. Cryptogea toehold biosensor. When the trigger RNA sequence is present, it binds to the complementary sequence in the toehold switch and unravels the hairpin loop allowing the reporter protein (GFP) to be expressed, producing green fluorescence. The sequence was designed via NUPACK using an input code provided by Takahashi et. al. We ordered the insert in a pUCIDT Kan plasmid from Integrated DNA Technologies. | ||
<strong>Description</strong> | <strong>Description</strong> | ||
| + | |||
Toehold biosensors, which are composed of a switch and trigger, are highly orthogonal riboregulators that activate translation in response to a specific RNA sequence. The switch is composed of a hairpin loop structure that represses translation through its complementary bases in between the ribosomal binding site and the start codon, which is followed by a linker sequence. Once the toehold is exposed to the trigger sequence, the complementary base pairs on the trigger will bind to the toehold, which exposes the ribosomal binding site. RNA polymerase can then bind to the RBS and initiate translation of the reporter protein. | Toehold biosensors, which are composed of a switch and trigger, are highly orthogonal riboregulators that activate translation in response to a specific RNA sequence. The switch is composed of a hairpin loop structure that represses translation through its complementary bases in between the ribosomal binding site and the start codon, which is followed by a linker sequence. Once the toehold is exposed to the trigger sequence, the complementary base pairs on the trigger will bind to the toehold, which exposes the ribosomal binding site. RNA polymerase can then bind to the RBS and initiate translation of the reporter protein. | ||
Revision as of 17:13, 20 October 2021
T7 Fusarium Trigger
Overview
The T7 Phytophthora Trigger is designed to be used in conjunction with the T7 promoter to induce GFP expression for Lambert iGEM’s P. Cryptogea toehold biosensor. When the trigger RNA sequence is present, it binds to the complementary sequence in the toehold switch and unravels the hairpin loop allowing the reporter protein (GFP) to be expressed, producing green fluorescence. The sequence was designed via NUPACK using an input code provided by Takahashi et. al. We ordered the insert in a pUCIDT Kan plasmid from Integrated DNA Technologies.
Description
Toehold biosensors, which are composed of a switch and trigger, are highly orthogonal riboregulators that activate translation in response to a specific RNA sequence. The switch is composed of a hairpin loop structure that represses translation through its complementary bases in between the ribosomal binding site and the start codon, which is followed by a linker sequence. Once the toehold is exposed to the trigger sequence, the complementary base pairs on the trigger will bind to the toehold, which exposes the ribosomal binding site. RNA polymerase can then bind to the RBS and initiate translation of the reporter protein.
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]