Figure 1. E2f4 is highly expressed in fetal liver erythroid cells. (A) E2f4 protein expression by immunohistochemistry in E12.5 E2f4+/+ (left panels) and E2f4–/– (right panels) embryo sections, counterstained with hematoxylin (blue). High-power images of the FL are shown in the bottom panels. Lack of detectable signal in the E2f4–/– littermate control demonstrates the specificity of the E2f4 antibody used in these studies. (B) Sorting protocol to isolate erythroid differentiation populations from E15.5 E2f4+/+ FL. Mature erythroblasts (Ter119hi/c-kitneg, M), proerythroblasts (Ter119dim/c-kitdim, P), and hematopoietic progenitors (Ter119neg/c-kithi, H; include the earliest erythroid progenitors, BFU-Es and CFU-Es). Morphology (benzidine and May-Grunwald-Giemsa stain) and cell cycle profiles by PI were used to characterize these populations. (C) Protein expression of E2F and pRB family members in sorted E15.5 E2f4+/+ FL subpopulations was assessed by Western blot; mSin3A indicates loading control. (D) Gel-shift analyses of E2F/pRb family complexes in E12.5 E2f4+/+ andE2f4–/– FL. (E) Gel-shift analysis of E2F/pRb family complexes in sorted E15.5 E2f4+/+ FL populations. Protein samples were derived from whole-cell extracts except where denoted. Nuc indicates nuclear extracts; WCE, whole-cell extracts. Solid arrowheads denote complexes supershifted by E2F4 polyclonal antibody, and clear arrowhead (Dii) denotes supershift with p107 mAb (SD6; a kind gift from N. Dyson), whereas an alternate p107 pAb (SC318X; Santa Cruz, Santa Cruz, CA) results in destruction of the complex (Diii,E).
Figure 1.

E2f4 is highly expressed in fetal liver erythroid cells. (A) E2f4 protein expression by immunohistochemistry in E12.5 E2f4+/+ (left panels) and E2f4–/– (right panels) embryo sections, counterstained with hematoxylin (blue). High-power images of the FL are shown in the bottom panels. Lack of detectable signal in the E2f4–/– littermate control demonstrates the specificity of the E2f4 antibody used in these studies. (B) Sorting protocol to isolate erythroid differentiation populations from E15.5 E2f4+/+ FL. Mature erythroblasts (Ter119hi/c-kitneg, M), proerythroblasts (Ter119dim/c-kitdim, P), and hematopoietic progenitors (Ter119neg/c-kithi, H; include the earliest erythroid progenitors, BFU-Es and CFU-Es). Morphology (benzidine and May-Grunwald-Giemsa stain) and cell cycle profiles by PI were used to characterize these populations. (C) Protein expression of E2F and pRB family members in sorted E15.5 E2f4+/+ FL subpopulations was assessed by Western blot; mSin3A indicates loading control. (D) Gel-shift analyses of E2F/pRb family complexes in E12.5 E2f4+/+ andE2f4–/– FL. (E) Gel-shift analysis of E2F/pRb family complexes in sorted E15.5 E2f4+/+ FL populations. Protein samples were derived from whole-cell extracts except where denoted. Nuc indicates nuclear extracts; WCE, whole-cell extracts. Solid arrowheads denote complexes supershifted by E2F4 polyclonal antibody, and clear arrowhead (Dii) denotes supershift with p107 mAb (SD6; a kind gift from N. Dyson), whereas an alternate p107 pAb (SC318X; Santa Cruz, Santa Cruz, CA) results in destruction of the complex (Diii,E).

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