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Anti glut1 a647

Manufactured by Abcam
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Anti-GLUT1-A647 is a fluorescently-labelled antibody that specifically binds to the GLUT1 glucose transporter protein. It is designed for use in various cellular and molecular biology applications.

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Lab products found in correlation

Facsaria 2, by BD (2 mentions) Keratinocyte serum free medium, by Thermo Fisher Scientific (2 mentions) Anti cd34 bv421, by BD (2 mentions) Anti cd49f pe, by Thermo Fisher Scientific (2 mentions) Zombie nir fixable viability dye, by BioLegend (2 mentions)

Spelling variants of this product

GLUT1 (137 citations) Anti-GLUT1 (81 citations)

2 protocols using anti glut1 a647

1

Isolation of Tumor Cells from Mice

Check if the same lab product or an alternative is used in the 5 most similar protocols
Mice bearing skin tumors were euthanized and the tumors were collected on ice. Each tumor was cut into small pieces and incubated with 0.5% trypsin (diluted in keratinocyte serum-free medium, Gibco) on a horizontal shaker at 37°C for 1.5 hr. Using an 18G syringe, digested tumor cells were physically isolated into a single cell suspension. The trypsin was inactivated by adding chelexed FBS. After serial filtering with 70μm and 40μm strainers (BD sciences), tumor cells were centrifuged at 1200 rpm, 4°C for 10 min. Cell pellets were resuspended with PBS containing 4% chelexed FBS and then transferred into FACS tubes with a 40μm filter. The following fluorophore-conjugated antibodies were used: anti-CD34-BV421 (BD sciences, 562608, 1:50) and anti-CD49f-PE (eBiosciences, 12-0495-81, 1:200), anti-GLUT1-A647 (Abcam, ab195020, 1:100). Propidium iodide (Sigma, P4864, 1:1000) or Zombie NIR fixable viability dye (Biolegend, 423105, 1:100) were used to negatively select live cells. Proper isotype controls, single color controls, and FMO controls were used in every experiment to set up optimal compensation and gates. Cells were analyzed and sorted using a FACSAria II (BD). Obtained data were analyzed by FlowJo. An exemplary gating strategy is described in Supplementary Information Figure 1.
Choi J.E., Sebastian C., Ferrer C.M., Lewis C.A., Sade-Feldman M., LaSalle T., Gonye A., Lopez B.G., Abdelmoula W.M., Regan M.S., Cetinbas M., Pascual G., Wojtkiewicz G.R., Silveira G.G., Boon R., Ross K.N., Tirosh I., Saladi S.V., Ellisen L.W., Sadreyev R.I., Benitah S.A., Agar N.Y., Hacohen N, & Mostoslavsky R. (2021). A unique subset of glycolytic tumor propagating cells drives squamous cell carcinoma. Nature metabolism, 3(2), 182-195.
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2

Isolation of Tumor Cells from Mice

Check if the same lab product or an alternative is used in the 5 most similar protocols
Mice bearing skin tumors were euthanized and the tumors were collected on ice. Each tumor was cut into small pieces and incubated with 0.5% trypsin (diluted in keratinocyte serum-free medium, Gibco) on a horizontal shaker at 37°C for 1.5 hr. Using an 18G syringe, digested tumor cells were physically isolated into a single cell suspension. The trypsin was inactivated by adding chelexed FBS. After serial filtering with 70μm and 40μm strainers (BD sciences), tumor cells were centrifuged at 1200 rpm, 4°C for 10 min. Cell pellets were resuspended with PBS containing 4% chelexed FBS and then transferred into FACS tubes with a 40μm filter. The following fluorophore-conjugated antibodies were used: anti-CD34-BV421 (BD sciences, 562608, 1:50) and anti-CD49f-PE (eBiosciences, 12-0495-81, 1:200), anti-GLUT1-A647 (Abcam, ab195020, 1:100). Propidium iodide (Sigma, P4864, 1:1000) or Zombie NIR fixable viability dye (Biolegend, 423105, 1:100) were used to negatively select live cells. Proper isotype controls, single color controls, and FMO controls were used in every experiment to set up optimal compensation and gates. Cells were analyzed and sorted using a FACSAria II (BD). Obtained data were analyzed by FlowJo. An exemplary gating strategy is described in Supplementary Information Figure 1.
Choi J.E., Sebastian C., Ferrer C.M., Lewis C.A., Sade-Feldman M., LaSalle T., Gonye A., Lopez B.G., Abdelmoula W.M., Regan M.S., Cetinbas M., Pascual G., Wojtkiewicz G.R., Silveira G.G., Boon R., Ross K.N., Tirosh I., Saladi S.V., Ellisen L.W., Sadreyev R.I., Benitah S.A., Agar N.Y., Hacohen N, & Mostoslavsky R. (2021). A unique subset of glycolytic tumor propagating cells drives squamous cell carcinoma. Nature metabolism, 3(2), 182-195.
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