Difference between revisions of "Part:BBa K2208002:Experience"
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| + | ===Applications of BBa_K2208002=== | ||
| − | + | ====Usage and Biology==== | |
| − | + | We packaged BCL2 siRNA into exosomes by transfecting HEK293 cells with a plasmid expressing BCL2 siRNA and then collected siRNA-encapsulated exosomes. When modified exosomes being intravenously injected, they will specifically recognize integrin receptors and fuse with white fat adipose cells under the direction of the tPep. Once inside cells, BCL2 siRNA will bind to BCL2 mRNA through base-pairing and digest the mRNA, resulting in sharp decrease of BCL2 protein in white fat adipose cells. As a consequence, BCL2 protein’s reduction and disturbed function will both result in the apoptosis of adipose cells, which ultimately have some therapeutic effects on losing weight. | |
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| − | === | + | ====CHARACTERIZATION==== |
| + | To ensure the interference efficiency of anti-BCL2 siRNA plasmid, we transfected it into HEK293 cells and then extracted protein from these cells to perform western blot. Significant down-regulation of BCL2 protein can be observed in HEK293 cells treated with anti-BCL2 siRNA, demonstrating that anti-BCL2 siRNA has the gene silencing effect. The siRNA-1 in the picture refers to this part RNA. | ||
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| + | [[File:NJU_China_iGEM_2017_test0002.jpeg|200px]] | ||
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| + | Figure 1. Protein quantitatively analysis of BCL2 protein after transfection of BCL2 siRNA | ||
===User Reviews=== | ===User Reviews=== | ||
Latest revision as of 14:35, 27 October 2017
Applications of BBa_K2208002
Usage and Biology
We packaged BCL2 siRNA into exosomes by transfecting HEK293 cells with a plasmid expressing BCL2 siRNA and then collected siRNA-encapsulated exosomes. When modified exosomes being intravenously injected, they will specifically recognize integrin receptors and fuse with white fat adipose cells under the direction of the tPep. Once inside cells, BCL2 siRNA will bind to BCL2 mRNA through base-pairing and digest the mRNA, resulting in sharp decrease of BCL2 protein in white fat adipose cells. As a consequence, BCL2 protein’s reduction and disturbed function will both result in the apoptosis of adipose cells, which ultimately have some therapeutic effects on losing weight.
CHARACTERIZATION
To ensure the interference efficiency of anti-BCL2 siRNA plasmid, we transfected it into HEK293 cells and then extracted protein from these cells to perform western blot. Significant down-regulation of BCL2 protein can be observed in HEK293 cells treated with anti-BCL2 siRNA, demonstrating that anti-BCL2 siRNA has the gene silencing effect. The siRNA-1 in the picture refers to this part RNA.
Figure 1. Protein quantitatively analysis of BCL2 protein after transfection of BCL2 siRNA
User Reviews
UNIQ26e6c26407d6cc4f-partinfo-00000000-QINU UNIQ26e6c26407d6cc4f-partinfo-00000001-QINU