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Mediation of Drosophila head development by gap-like segmentation genes

Nature volume 346pages 482–485 (1990)Cite this article

Abstract

THE first phase of embryonic development in Drosophila consists of the elaboration and interpretation of maternally encoded information that specifies spatial pattern in the embryo1. The product of the maternal gene bicoid (bcd) is thought to organize the anterior pattern of the embryo2. Although the bed transcript is localized at the anterior pole of the egg3,4 the bed protein forms a stable concentration gradient through the anterior two thirds of the embryo5. The graded distribution of bed protein defines position along the anterior-posterior axis of the embryo6–8 through the spatially restricted activation of subordinate targets such as the gap gene hunchback(hb)7–11. In vitro manipulation of specific bcd protein binding sites has shown that the gradient of bed protein can in principle define more than one discrete domain of spatially restricted gene activation in the head of the embryo, depending on the affinity of the available binding sites for the bcd protein8.12. Genetic analysis has indicated the need for at least one additional zygotic segmentation gene to mediate bcd function in portions of the head that lie anterior to the hb domain2,12–14. The missing gene activity is expected to be activated in response to higher levels of bed protein than are required for hb activation12. We report here that three previously identified zygotic genes buttonhead (btd), empty spiracles (ems) and orthodenticle (otd) l5–17 may behave like gap genes that mediate bed function in the embryonic head.

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Authors and Affiliations

  1. Howard Hughes Medical Institute and Department of Cell Biology, Baylor College of Medicine, Houston, TX 77030, USA

    Stephen M. Cohen

  2. Institut für Genetik und Mikrobiologie, Universität München, Maria-Ward-Str 1A, 8000, München, 19, FRG

    Gerd Jürgens

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  1. Stephen M. Cohen
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  2. Gerd Jürgens
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Cohen, S., Jürgens, G. Mediation of Drosophila head development by gap-like segmentation genes. Nature 346, 482–485 (1990). https://doi.org/10.1038/346482a0

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