Team:Freiburg/Content/Results/Vector
From 2014.igem.org
1 The Vector
Our system provides a possibility to transfer genes in spacial and temporal resolution. This transfer is carried out by a vector derived from a murine leukemia virus. The virus is specific for a receptor that is only expressed in mouse cells. Since the vector is one essential part of the system its characterisation is important.
1.1 Specificity of MuLV
An important aspect for the function of our system as well as for its safety is the specificity of the vector regarding infection of different kind of cells. The vector deriving from the murine leukemia virus is specific for cells carrying the mouse specific CAT-1. Cells that do not have this specific receptor are not targeted by the vector. In order to test the specificity of the system, different kind of cells were incubated with the vector containing EGFP. Since EGFP is stable integrated by the system, infected cells are identified by a green fluorescence that was analysed via flow cytometry (figure 1).
We tested two human cell lines, human embryonic kidney cells as well as human lung epithel carcinoma cells, for their capability of being targeted by the vector. In addition, mouse fibroblasts that express the mouse specific CAT-1 receptor were tested for a positive control. As shown in figure 1 both human cell lines did not express EGFP after incubation with the vector indicating that they were not targeted. However, many cells of the mouse cell line were expressing EGFP after infection.
The vector derived from the murine leukemia virus is specific for the murine CAT-1 receptor. Therefore it is not able to infect human cell lines!
1.2 Optimization of transduction
An importang aspect of our system is the infection rate of the viral vector. Therefore, we tried to optimize our transduction protocol reaching almost 100% efficiency in murine cell lines like NIH3T3 cells. capability from 16% at the beginning to almost 100%.
With the viral vector used in our system transduction efficiency in murine cells was optimized to almost 100%!
1.3 Expression of different viral constructs
bla bla
1.4 Virus dilution and concentration
blubb!