Figure 1
Figure 1. Phenotypic characterization of the ROSA cell lines. ROSAKIT WT cells were stained by (A-B) MGG or (C) toluidine blue. (D) The ultrastructure of ROSAKIT WT cells was analyzed by transmission electron microscopy. In addition, ROSAKIT WT cells were treated with an antibody against (E) tryptase or (F) KIT (CD117). Positivity was revealed by indirect immunocytochemistry as described in “Material and methods.” (G) Cytospin preparations or (H-I) glass smears of ROSAKIT D816V cells were stained by MGG. (G) Note the presence of many granules in ROSAKIT D816V cells and of apoptotic cells, a phenomenon likely to be related to terminal maturation induced by the introduction of the KIT D816V mutant. (H) On glass smear, a significant proportion of the ROSAKIT D816V cells presented with spindle-shaped appearance, which was not noticed for (I) ROSAKIT WT cells. Magnification: A and C, ×200; B, E, G, H, and I ×500; D, ×2000; F, ×1000.

Phenotypic characterization of the ROSA cell lines. ROSAKIT WT cells were stained by (A-B) MGG or (C) toluidine blue. (D) The ultrastructure of ROSAKIT WT cells was analyzed by transmission electron microscopy. In addition, ROSAKIT WT cells were treated with an antibody against (E) tryptase or (F) KIT (CD117). Positivity was revealed by indirect immunocytochemistry as described in “Material and methods.” (G) Cytospin preparations or (H-I) glass smears of ROSAKIT D816V cells were stained by MGG. (G) Note the presence of many granules in ROSAKIT D816V cells and of apoptotic cells, a phenomenon likely to be related to terminal maturation induced by the introduction of the KIT D816V mutant. (H) On glass smear, a significant proportion of the ROSAKIT D816V cells presented with spindle-shaped appearance, which was not noticed for (I) ROSAKIT WT cells. Magnification: A and C, ×200; B, E, G, H, and I ×500; D, ×2000; F, ×1000.

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