The making of a fly leg: A model for epithelial morphogenesis
- 1 August 1995
- Vol. 17 (8) , 693-702
- https://doi.org/10.1002/bies.950170806
Abstract
Epithelial development dictates the shape of an organism. The metamorphic development of a Drosophila leg precursor into an adult leg is a well‐defined example of epithelial morphogenesis that can be analyzed from the perspectives of genetics and molecular and cell biology. The steroid hormone 20‐hydroxyecdysone induces and regulates the entire process. Mutants affecting Drosophila leg morphogenesis characteristically have short thick legs (the malformed phenotype) resulting from a failure to execute normal cell shape changes at a specific stage of development. Mutations that cause the malformed phenotype have already led to the identification and cloning of genes encoding transcription factors, a transmembrane serine protease presumably required for modification of the apical extracellular matrix, and components of the contractile cytoskeleton and adherens junctions. All of these products are required for the execution of normal changes in leg cell shape.Keywords
This publication has 59 references indexed in Scilit:
- Sequence and expression of IMP‐L1, an ecdysone‐inducible gene expressed during Drosophila imaginal disc morphogenesisDevelopmental Genetics, 1992
- Mutations in a steroid hormone-regulated gene disrupt the metamorphosis of the central nervous system in DrosophilaDevelopmental Biology, 1991
- The Drosophila CytoskeletonAnnual Review of Cell Biology, 1990
- The Drosophila IMP-E2 gene encodes an apically secreted protein expressed during imaginal disc morphogenesisDevelopmental Biology, 1990
- Characterization of IMP‐E3, A gene active during imaginal disc morphogenesis in Drosophila melanogasterDevelopmental Genetics, 1989
- Septate junctions in imaginal disks of Drosophila: a model for the redistribution of septa during cell rearrangement.The Journal of cell biology, 1982
- Demonstration of contractility of circumferential actin bundles and its morphogenetic significance in pigmented epithelium in vitro and in vivo.The Journal of cell biology, 1981
- The mechanism of evagination of imaginal discs of Drosophila melanogasterDevelopmental Biology, 1975
- The recovery and preliminary characterization of X chromosome mutants affecting imaginal discs ofDrosophila melanogasterDevelopmental Biology, 1972
- Exaggeration and Inhibition Phenomena encountered in the analysis of an autosomal dominantMolecular Genetics and Genomics, 1929