Composite

Part:BBa_K3725070

Designed by: Alice Hou, Michelle Jing, Monica Cho, Janet Standeven, Megan McSweeney   Group: iGEM21_Lambert_GA   (2021-09-29)
Revision as of 16:54, 21 October 2021 by Sachinthaashok (Talk | contribs)


T7 Fusarium Trigger

Overview

The T7 Fusarium trigger is a RNA sequence designed to be used in conjunction with the Fusarium Toehold w/ GFP Reporter part BBa_K3725020, and the Redesigned Fusarium Toehold w/ GFP Reporter part, BBa_K3725022, in order to express GFP as a part of the engineered toehold switch system. 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 assembled this part into the high copy plasmid pSB1K3, which contained kanamycin resistance.

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.



Design

The construction of a disease-specific biosensor required us to find a gene unique to the pathogen. When the switch turns on and GFP is expressed, we can confirm that the specific pathogen is present. For the detection of Fusarium oxysporum f. sp. lycopersici, Lambert iGEM focused on the FRP1 gene. This gene was selected because it was required for pathogenicity and was unique to the species of interest. Biosafety note, the trigger sequence is not the full transcript sequence and therefore poses limited biosafety. We obtained the sequence via UniProt, an online database of protein sequences. Lambert iGEM used the code from Takahashi et. al provided by Megan McSweeney from the Styczynski Lab at the Georgia Institute of Technology to design the switch and trigger sequences on NUPACK. The team selected the pair from NUPACK with the lowest normalized ensemble defect (NED) to maximize the chances of successful compatibility. Once we obtained the sequences for the toehold pair, we constructed the toehold and trigger via SnapGene.

Figure 1. BBa_K3725070 T7 Fusarium Trigger Construct

Experience


The T7 Fusarium Trigger BBa_K3725070 and the Fusarium Toehold with GFP Reporter BBa_K3725020 are intended to be compatible with each other and be used in conjunction. To test the compatibility of the trigger sequence with the toehold sequence, a dual-plasmid transformation was performed, and fluorescence was measured in comparison with cells transformed with only the toehold part and pUC19 (positive control). All samples were divided by optical density to obtain a standardized unit. The fluorescence per optical density unit measurement of cells transformed with both the toehold and trigger sequences was not statistically greater in comparison to the measurements of cells transformed with only the toehold part and pUC19 plasmid.

Therefore, Lambert iGEM decided to use a redesigned toehold switch sequence, Improved Fusarium Toehold with GFP Reporter BBa_K3725022, obtained from NUPACK, and performed dual plasmid transformation. The T7 Fusarium Trigger BBa_K3725070 binded more effectively to the Improved Toehold as shown in the data below.


Figure 1. Mean fluorescence/OD of Fusarium dual plasmid transformation compared to toehold and plain LB with SEM error bars. DP stands for dual plasmid, TH stands for toehold only. Ran at a gain of 60.



Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    COMPATIBLE WITH RFC[21]
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    COMPATIBLE WITH RFC[1000]


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