Figure 5
Figure 5. Disturbed quiescence and increased apoptosis for LSK cells derived from Shp2Δ/Δ BM. (A) Representative FACS plots illustrate BrdU/7-aminoactinomycin D (7-AAD) staining in LSK cells. (B) Quantification of S-phase or G0/G1-phase cell percentage in LSK subpopulation indicating more actively proliferating LSK cells in Shp2Δ/Δ animals. Results were obtained from 3 independent experiments. (C) Quantification of G0-G1, S, and G2-M phase cell percentage in 34−LSK subpopulation. (D) lin−ckit+Sca1− and LSK cell but not lin− population contained more Annexin V+ cells. (E, F) Elevated Annexin V+ 7-AAD− and Annexin V+ 7-AAD+ percentage in Shp2Δ/Δ 34−LSK cells (n = 4). ***P < .001, **P < .01,*P < .05, error bars are SD; see also supplemental Figure 3.

Disturbed quiescence and increased apoptosis for LSK cells derived from Shp2Δ/Δ BM. (A) Representative FACS plots illustrate BrdU/7-aminoactinomycin D (7-AAD) staining in LSK cells. (B) Quantification of S-phase or G0/G1-phase cell percentage in LSK subpopulation indicating more actively proliferating LSK cells in Shp2Δ/Δ animals. Results were obtained from 3 independent experiments. (C) Quantification of G0-G1, S, and G2-M phase cell percentage in 34LSK subpopulation. (D) linckit+Sca1 and LSK cell but not lin population contained more Annexin V+ cells. (E, F) Elevated Annexin V+ 7-AAD and Annexin V+ 7-AAD+ percentage in Shp2Δ/Δ 34LSK cells (n = 4). ***P < .001, **P < .01,*P < .05, error bars are SD; see also supplemental Figure 3.

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