AbstractIn Drosophila, the initial asymmetries that determine the embryonic body axes are generated during oogenesis. A report in this issue of Developmental Cell shows that a developing follicle conveys its anterior-posterior asymmetry to the next younger follicle via a relay mechanism that involves the Notch/Delta and the JAK/STAT signaling pathways
AbstractIn Drosophila, the dorsal-ventral polarity of the egg chamber depends on the localization of...
AbstractA new function for Delta–Notch signaling has been discovered in Drosophila oogenesis: Delta ...
The establishment of the body axes has been well-studied in Drosophila melanogaster, and is known to...
AbstractThe anterior-posterior axis of Drosophila becomes polarized early in oogenesis, when the ooc...
AbstractIn Drosophila, the initial asymmetries that determine the embryonic body axes are generated ...
Drosophila oogenesis requires the subsequent growth of distinct egg chambers each containing a group...
The anterior-posterior axis of Drosophila is established before fertilisation when the oocyte become...
AbstractIntercellular communication between oocyte and follicle cells, mediated by the gurken–torped...
AbstractThe anterior–posterior axis of Drosophila is established before fertilisation when the oocyt...
AbstractThe Drosophila egg develops through closely coordinated activities of associated germline an...
AbstractDorsoventral axis formation in Drosophila relies on extracellular signals which are generate...
AbstractBackground:Drosophila axis formation requires a series of inductive interactions between the...
AbstractIntercellular communication between the somatic and germline cells is vital to development o...
In Drosophila, dorsoventral polarity is established by the asymmetric positioning of the oocyte nucl...
AbstractDuring Drosophila oogenesis, the somatic follicle cells form an epithelial layer surrounding...
AbstractIn Drosophila, the dorsal-ventral polarity of the egg chamber depends on the localization of...
AbstractA new function for Delta–Notch signaling has been discovered in Drosophila oogenesis: Delta ...
The establishment of the body axes has been well-studied in Drosophila melanogaster, and is known to...
AbstractThe anterior-posterior axis of Drosophila becomes polarized early in oogenesis, when the ooc...
AbstractIn Drosophila, the initial asymmetries that determine the embryonic body axes are generated ...
Drosophila oogenesis requires the subsequent growth of distinct egg chambers each containing a group...
The anterior-posterior axis of Drosophila is established before fertilisation when the oocyte become...
AbstractIntercellular communication between oocyte and follicle cells, mediated by the gurken–torped...
AbstractThe anterior–posterior axis of Drosophila is established before fertilisation when the oocyt...
AbstractThe Drosophila egg develops through closely coordinated activities of associated germline an...
AbstractDorsoventral axis formation in Drosophila relies on extracellular signals which are generate...
AbstractBackground:Drosophila axis formation requires a series of inductive interactions between the...
AbstractIntercellular communication between the somatic and germline cells is vital to development o...
In Drosophila, dorsoventral polarity is established by the asymmetric positioning of the oocyte nucl...
AbstractDuring Drosophila oogenesis, the somatic follicle cells form an epithelial layer surrounding...
AbstractIn Drosophila, the dorsal-ventral polarity of the egg chamber depends on the localization of...
AbstractA new function for Delta–Notch signaling has been discovered in Drosophila oogenesis: Delta ...
The establishment of the body axes has been well-studied in Drosophila melanogaster, and is known to...
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