Leibovitz 15 medium lacking phenol red

Manufactured by Thermo Fisher Scientific

Leibovitz 15 medium lacking phenol red is a cell culture medium formulation used to support the growth and maintenance of various cell types in vitro. This medium is similar to the standard Leibovitz 15 (L-15) formulation, but it does not contain the pH indicator dye phenol red. The omission of phenol red allows for the use of this medium in applications where the presence of the dye may interfere with certain experimental procedures or analyses.

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Lab products found in correlation

35 mm glass bottom dishes, by Ibidi (2 mentions)

Close spelling variants of this product

Phenol red (557 citations) Phenol (68 citations) Leibovitz medium (22 citations) Leibovitz-15 medium (17 citations)

2 protocols using leibovitz 15 medium lacking phenol red

Quantifying FOXN1 Condensates in 4D6 Cells

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The 4D6 cells were plated in 35-mm glass bottom dishes (Ibidi) in the 4D6 cell growth medium described earlier and were then transfected with various combinations of the wild-type and mutant FOXN1 constructs. Twenty-four hours after transfection, the culture medium was exchanged with Leibovitz 15 medium lacking phenol red (Thermo Fisher Scientific), and cells were imaged with a ZeissLSM 880 inverted confocal laser scanning microscope. A laser wavelength of 488 nm was used to excite GFP or EYFP. Laser power was kept 50 μW or below to avoid phototoxicity. FOXN1 condensates were counted using the spot counter plug-in of the Fiji software. Default values for spot size and fluorescence were used for this analysis.

Rota I.A., Handel A.E., Maio S., Klein F., Dhalla F., Deadman M.E., Cheuk S., Newman J.A., Michaels Y.S., Zuklys S., Prevot N., Hublitz P., Charles P.D., Gkazi A.S., Adamopoulou E., Qasim W., Davies E.G., Hanson I., Pagnamenta A.T., Camps C., Dreau H.M., White A., James K., Fischer R., Gileadi O., Taylor J.C., Fulga T., Lagerholm B.C., Anderson G., Sezgin E, & Holländer G.A. (2021). FOXN1 forms higher-order nuclear condensates displaced by mutations causing immunodeficiency. Science Advances, 7(49), eabj9247.

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Imaging Cellular Localization of FOXN1 Variants

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4D6 cells were plated in 35 mm glass bottom dishes (Ibidi) in the 4D6 cell growth medium described earlier and were then transfected with various combinations of the wild-type and mutant FOXN1 constructs. Twenty-four hours after transfection the culture medium was exchanged with Leibovitz 15 medium lacking phenol red (Thermo Fisher Scientific) and cells were imaged with a ZeissLSM 880 inverted confocal laser scanning microscope. A laser wavelength of 488 nm wave length was used to excite GFP or EYFP. Laser power was kept 50 µW or below to avoid phototoxicity.

Rota I.A., Handel A.E., Klein F., Maio S., Dhalla F., Deadman M.E., Cheuk S., Newman J., Michaels Y.S., Žuklys S., Prevot N., Hublitz P., Charles P.D., Gkazi S.A., Adamopoulou E., Qasim W., Davies E.G., Hanson C., Pagnamenta A.T., Camps C., Dreau H., White A.J., James K.D., Fischer R., Gileadi O., Taylor J.C., Fulga T.A., Lagerholm B.C., Anderson G., Sezgin E., & Holländer G.A. (2021). A FOXN1 mutation competitively displaces wild-type FOXN1 from higher-order nuclear condensates to cause immunodeficiency.

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