1. Positive and negative regulation of Easter, a member of the serine protease family that controls dorsal-ventral patterning in the Drosophila embryo
- Author
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Sima Misra, Kathryn V. Anderson, Peter M. Hecht, and Robert Maeda
- Subjects
Proteases ,Protein Conformation ,medicine.medical_treatment ,Genes, Insect ,Cleavage (embryo) ,Serine ,Zymogen ,medicine ,Animals ,Drosophila Proteins ,Protease Inhibitors ,Molecular Biology ,Serine protease ,Enzyme Precursors ,Protease ,biology ,Serine Endopeptidases ,Twist-Related Protein 1 ,Gene Expression Regulation, Developmental ,Nuclear Proteins ,Trypsin ,Enzyme Activation ,Biochemistry ,Zymogen activation ,biology.protein ,Insect Proteins ,Drosophila ,Transcription Factors ,Developmental Biology ,medicine.drug - Abstract
The sequential activities of four members of the trypsin family of extracellular serine proteases are required for the production of the ventrally localized ligand that organizes the dorsal-ventral pattern of the Drosophila embryo. The last protease in this sequence is encoded by easter, which is a candidate to activate proteolytically the ligand encoded by spätzle. Here, we demonstrate biochemically that the zymogen form of Easter is processed in vivo by a proteolytic cleavage event that requires the three upstream proteases. Processed Easter is present in extremely low amounts in the early embryo because it is rapidly converted into a high molecular mass complex, which may contain a protease inhibitor. Easter zymogen activation is also controlled by a negative feedback loop from Dorsal, the transcription factor at the end of the signaling pathway. Each of these regulated biochemical processes is likely to be important in generating the ventral-to-dorsal gradient of Dorsal protein that organizes cell fates in the early embryo.
- Published
- 1998
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