Calcium Phosphate Transfection Kit

We recommend that you try electroporation as a method of delivering your plasmid of interest. We offer the Neon Transfection System for highly efficient transfection of primary cells, stem cells, and difficult-to-transfect cells. You may also consider using a viral-based system (https://www.thermofisher.com/us/en/home/life-science/protein-biology/protein-expression/mammalian-protein-expression/viral-delivery-mammalian-expression.html) to deliver your gene into your mammalian cell line of interest.

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The dose-response curve is a valuable tool to determine cell toxicity when exposed to various concentrations of antibiotic. The amount of selective antibiotic required to select for resistant cells varies with a number of factors, including cell type and type of antibiotic. We recommend performing a dose-response curve every time a new antibiotic (or a different brand) or a different cell line is used.

Experimental outline of dose-response curve assay:

1.Plate cells in a number of wells such that they are 25–30% confluent. This means that the cells are still dividing and hence will respond well to the antibiotic.
2.Dilute the antibiotic being tested to a broad linear concentration of the recommended range in growth medium.
3.Remove the growth medium from the cells. Apply the antibiotic-containing medium to the respective wells, leaving one set of wells empty. To these wells, add growth medium that does not contain the antibiotic.
4.Culture cells under proper growth conditions (change the medium every 3–4 days to get rid of dead cells and add fresh medium containing antibiotic) and observe the cells daily. At 10–14 days, assess the number of viable cells in each well. (This time period depends upon the antibiotic being tested; antibiotics such as Geneticin, Hygromycin, and Zeocin take about 3 weeks to kill cells, so waiting for 10–14 days would be ideal. However, for Blasticidin, which kills cells in about 2 weeks, waiting for 7–10 days would be sufficient.) To do this, aspirate the medium, wash the cells with phosphate-buffered saline and stain the cells with 0.5% methylene blue and 50% methanol for 20 minutes.
5.Plot the number of viable cells against the antibiotic concentration. This curve is the dose-response curve or kill curve. The lowest concentration of the antibiotic that kills all the cells in the chosen time period is then used for the stable selection.

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Transfection does not work for certain cell types such as non-dividing cells, whereas viral transduction works for dividing as well as non-dividing cells, such as neuronal cells that are hard to transfect.

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The main advantage of lipid-mediated transfection is the higher transfection efficiency that can be achieved with cell types that cannot be transfected using calcium phosphate. Calcium phosphate is prone to variability due to its sensitivity to slight changes in pH, temperature, and buffer salt concentrations. Calcium phosphate may also be cytotoxic to many cell types, especially primary cells. Further, lipid-mediated transfection can be used to deliver DNA ranging from oligos to large DNA, and can also deliver RNA and protein.

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During transient transfection the exogenous DNA does not integrate into the host genome, as a result some DNA is lost with every subsequent cell division. The expression is short-lived (maximum of 7-10 days) but the level of expression is high, since up to hundreds of copies of the DNA may be delivered into the cell. In stable transfection, under antibiotic selection pressure, the DNA integrates into the host cell genome and is passed onto their daughter cells during cell division. The expression is thus sustained as long as the selection pressure is maintained. The expression level is low since only 1-2 copies of the DNA may be integrated per cell. Transfection efficiency in a stable transfection is about 1-10% of that in a transient transfection.

Find additional tips, troubleshooting help, and resources within our Transfection Support Center.