Difference between revisions of "Part:BBa K5142048"
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<span class='h3bb'>We verified the reliability of Click Virus by linking it with folate-PEG-DBCO and testing its specificity in infecting to 293T cells overexpressing FOLR2 (folate receptor 2). In this experiment, viral infection was indicated by GFP expressed by the virus, and FOLR2-overexpressed cells were indicated by mCherry co-expressed with FOLR2 via T2A-mediated cleavage. As the result shown in Figure 1, the ratios of specific infection to FOLR2-overexpressed cells increase in a dose-dependent pattern according to the reactive concentration of folate-PEG-DBCO, reaching the highest ratio of 80% under 10 μM. This result prove the correct function of Click Virus.</span> | <span class='h3bb'>We verified the reliability of Click Virus by linking it with folate-PEG-DBCO and testing its specificity in infecting to 293T cells overexpressing FOLR2 (folate receptor 2). In this experiment, viral infection was indicated by GFP expressed by the virus, and FOLR2-overexpressed cells were indicated by mCherry co-expressed with FOLR2 via T2A-mediated cleavage. As the result shown in Figure 1, the ratios of specific infection to FOLR2-overexpressed cells increase in a dose-dependent pattern according to the reactive concentration of folate-PEG-DBCO, reaching the highest ratio of 80% under 10 μM. This result prove the correct function of Click Virus.</span> | ||
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<p>Figure 1 fluorescence images of click virus (green) and cells overexpressing FOlR2(red) under different reactive concentrations of folate-DBCO. The yelLow regions in the merge figures indicate the FOLR2-overexpressed cells infected by click virus. The composition column shows the ratios of different colors in each treatment.</p> | <p>Figure 1 fluorescence images of click virus (green) and cells overexpressing FOlR2(red) under different reactive concentrations of folate-DBCO. The yelLow regions in the merge figures indicate the FOLR2-overexpressed cells infected by click virus. The composition column shows the ratios of different colors in each treatment.</p> | ||
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<partinfo>BBa_K5142048 SequenceAndFeatures</partinfo> | <partinfo>BBa_K5142048 SequenceAndFeatures</partinfo> | ||
Revision as of 12:55, 2 October 2024
Click Virus
This part is a genetically engineered vaccinia virus (VACV) with modified A27L protein containing three 4-azido-L-phenylalanine residues close to its N-terminus. The azido groups serve as the sites for the click reaction of azido and dibenzocyclooctyne (DBCO) groups, which is the reason why this part is named “Click Virus”. Since A27L distributes on the surface of VACV and azido-DBCO click reaction can occur under physiological conditions without any catalyst, it is quite easy to link any customized DBCO-conjugated element onto the surface of Click Virus covalently via click reaction. Depending on the molecules linked, the modified Click Virus can be applied to a wide variety of biological and medical fields, such as targeting delivery of genes, oncolytic virus and vaccine carrier. In summary, Click Virus is a pluripotent chassis allowing rapid development of customized viral particles without further genetical engineering.
Usage and Biology
To link a customized element to Click Virus, the following experimental procedures are suggested.
1.Conjugate the customized element (CE) with DBCO by chemical synthesis. A flexible linker, such as a polyethylene glycol (PEG, MW 1000), is recommended to bridge the target element and DBCO to avoid unexpected interactions between them. Obtain CE-PEG-DBCO.
2.Add CE-PEG-DBCO directly to Click Virus (106 pfu/mL) kept in DMEM. A final CE-PEG-DBCO concentration of 10 μM is recommended in the initial trial. Incubate the mixture in room temperature for 1 h. CE-PEG-DBCO concentration and incubation time can be optimized according to the CE.
3.Test the CE-linked Click Virus or keep it in -80 °C for storage
Please note that all the experiments involving the virus should be conducted in a BSL-2 facility.
Verification
We verified the reliability of Click Virus by linking it with folate-PEG-DBCO and testing its specificity in infecting to 293T cells overexpressing FOLR2 (folate receptor 2). In this experiment, viral infection was indicated by GFP expressed by the virus, and FOLR2-overexpressed cells were indicated by mCherry co-expressed with FOLR2 via T2A-mediated cleavage. As the result shown in Figure 1, the ratios of specific infection to FOLR2-overexpressed cells increase in a dose-dependent pattern according to the reactive concentration of folate-PEG-DBCO, reaching the highest ratio of 80% under 10 μM. This result prove the correct function of Click Virus.
< img src="https://static.igem.wiki/teams/5142/res/image043.png" style="weight:60%;text-align:center">
Figure 1 fluorescence images of click virus (green) and cells overexpressing FOlR2(red) under different reactive concentrations of folate-DBCO. The yelLow regions in the merge figures indicate the FOLR2-overexpressed cells infected by click virus. The composition column shows the ratios of different colors in each treatment.
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]