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Fig. 7. Notch and ephrin-B2/EphB4 pathways regulate the balanced anterior DA and
CV morphogenesis. (A) Summary of DA and CV phenotypes at 
E9.0.
In wild type, all ECs in the DA express ephrin B2 (red) and all ECs in the CV
express EphB4 (blue). In the gain-of-function Notch mutants, the DA
is enlarged whereas the CV is reduced, and cells in the CV, in addition to the
DA, express ephrin B2. Some CV cells co-express ephrin B2 and EphB4 (purple
striped). The ratio of arterial to venous ECs is increased. In the
loss-of-function Notch mutant, the DA is reduced while the CV is
enlarged, and some ECs in the DA, in addition to the CV, express EphB4. The
ratio of arterial to venous ECs is reduced. In both loss-of-function
Efnb2 and Ephb4 mutants, the DA is enlarged, whereas the CV
is reduced. The enlarged DA bears some ECs with venous identity, ephrin
B2- and EphB4+ (blue). The CV size is reduced and its
ECs express EphB4. (B) Proposed model depicts the Notch and ephrin
B2/EphB4 pathways as molecular regulators in the balanced growth of the DA and
CV. Alterations in the size of one type of vessel are accompanied by
reciprocal changes in the other. Notch signaling controls this equilibrium by
promoting arterial differentiation, thereby dictating the ratio of arterial to
venous ECs. Ephrin B2/EphB4 signaling regulates this balance by sorting
differential ECs into the respective vessels.
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