Figure 7
Figure 7. Downregulation of ROCK improves ploidy but increases genomic instability in Fanca−/− MKs. Ploidy analysis of CD41+ cells after 3-day culture with TPO, with or without the ROCK inhibitor Y27632: (A) representative flow cytometry histograms; (B) mean ploidy of all CD41+ cells; and (C) mean ploidy of CD41+ cells with ≥8N (n = 4 per group of WT; n = 5 per group of Fanca−/−, *P < .05, Student t test). (D) Frequency of chromosomal aberrations scored in a minimum of 30 metaphases per point (n = 3 per group, *P < .05, Student t test), with or without ROCK inhibitor. (E) Number of colonies obtained at day 6 of MegaCult-C under the same conditions described above (n = 5 per group, *P < .05, Student t test). Means ± SEM are shown. (F) Proposed model for development of thrombocytopenia in Fanca−/− mice. See discussion for details.

Downregulation of ROCK improves ploidy but increases genomic instability in Fanca−/− MKs. Ploidy analysis of CD41+ cells after 3-day culture with TPO, with or without the ROCK inhibitor Y27632: (A) representative flow cytometry histograms; (B) mean ploidy of all CD41+ cells; and (C) mean ploidy of CD41+ cells with ≥8N (n = 4 per group of WT; n = 5 per group of Fanca−/−, *P < .05, Student t test). (D) Frequency of chromosomal aberrations scored in a minimum of 30 metaphases per point (n = 3 per group, *P < .05, Student t test), with or without ROCK inhibitor. (E) Number of colonies obtained at day 6 of MegaCult-C under the same conditions described above (n = 5 per group, *P < .05, Student t test). Means ± SEM are shown. (F) Proposed model for development of thrombocytopenia in Fanca−/− mice. See discussion for details.

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