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<h3 class="ar-title"><span class="dg"> </span>The construction and expressing validation of SynNotch and CAR system</h3> | <h3 class="ar-title"><span class="dg"> </span>The construction and expressing validation of SynNotch and CAR system</h3> | ||
<h4><br>To engineer our regulatory T cells, we designed a three-plasmid expressing system for genes of SynNotch and CAR. We chose PLVX-IRES-Puro, PLVX-IRES-Neo and pcDNA3.1 as backbones for the plasmid vectors that carry the SynNotch fusion protein gene, the CAR-CD20 fusion protein gene and the UAS-USP7-promoter-USP7 sequence individually (these three genes were synthesized and connected to their vectors by Genscript). Find more details about the design of the fusion protein and the plasmid vector in Parts section.</h4> | <h4><br>To engineer our regulatory T cells, we designed a three-plasmid expressing system for genes of SynNotch and CAR. We chose PLVX-IRES-Puro, PLVX-IRES-Neo and pcDNA3.1 as backbones for the plasmid vectors that carry the SynNotch fusion protein gene, the CAR-CD20 fusion protein gene and the UAS-USP7-promoter-USP7 sequence individually (these three genes were synthesized and connected to their vectors by Genscript). Find more details about the design of the fusion protein and the plasmid vector in Parts section.</h4> |
Revision as of 10:25, 1 November 2017