Fig. 6.
Fig. 6. Erythroid progenitors can be grown from CD34+ and CD34− cell fractions. Mononuclear bone marrow cells were fractionated into CD34− and CD34+ fractions using Minimacs columns. The CD34− fraction was repurified using the same columns (A and B). Cells were stained for CD34 to verify the purity of the CD34− and CD34+ fraction by FACS. The CD34+ cells were costained with CD71 (horizontal axis) and CD38 (vertical axis; C). Only CD34+ cells were gated (A and B; gate R2). Fractions highly enriched for BFU-E (C; R4, high CD71, medium CD38) or immature blast cells (C; R3; medium-low CD71, medium-low CD38) were purified by sorting. CD34− cells (▴), the sorted BFU-E progenitors (○), and the sorted immature blast cells (□) were cultured in CFU-E medium supplemented with Epo, SCF, IGF-I, and Dex. Cumulative cell numbers were calculated (D).

Erythroid progenitors can be grown from CD34+ and CD34 cell fractions. Mononuclear bone marrow cells were fractionated into CD34 and CD34+ fractions using Minimacs columns. The CD34 fraction was repurified using the same columns (A and B). Cells were stained for CD34 to verify the purity of the CD34 and CD34+ fraction by FACS. The CD34+ cells were costained with CD71 (horizontal axis) and CD38 (vertical axis; C). Only CD34+ cells were gated (A and B; gate R2). Fractions highly enriched for BFU-E (C; R4, high CD71, medium CD38) or immature blast cells (C; R3; medium-low CD71, medium-low CD38) were purified by sorting. CD34 cells (▴), the sorted BFU-E progenitors (○), and the sorted immature blast cells (□) were cultured in CFU-E medium supplemented with Epo, SCF, IGF-I, and Dex. Cumulative cell numbers were calculated (D).

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