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1.
Development ; 126(23): 5353-64, 1999 Dec.
Article in English | MEDLINE | ID: mdl-10556060

ABSTRACT

Rho GTPases play an important role in diverse biological processes such as actin cytoskeleton organization, gene transcription, cell cycle progression and adhesion. They are required during early Drosophila development for proper execution of morphogenetic movements of individual cells and groups of cells important for the formation of the embryonic body plan. We isolated loss-of-function mutations in the Drosophila Rho1 (Rho1) gene during a genetic screen for maternal-effect mutations, allowing us to investigate the specific roles Rho1 plays in the context of the developing organism. Here we report that Rho1 is required for many early events: loss of Rho1 function results in both maternal and embryonic phenotypes. Embryos homozygous for the Rho1 mutation exhibit a characteristic zygotic phenotype, which includes severe defects in head involution and imperfect dorsal closure. Two phenotypes are associated with reduction of maternal Rho1 activity: the actin cytoskeleton is disrupted in egg chambers, especially in the ring canals and embryos display patterning defects as a result of improper maintenance of segmentation gene expression. Despite showing imperfect dorsal closure, Rho1 does not activate downstream genes or interact genetically with members of the JNK signaling pathway, used by its relatives dRac and dCdc42 for proper dorsal closure. Consistent with its roles in regulating actin cytoskeletal organization, we find that Rho1 interacts genetically and physically with the Drosophila formin homologue, cappuccino. We also show that Rho1 interacts both genetically and physically with concertina, a G(alpha) protein involved in cell shape changes during gastrulation.


Subject(s)
Drosophila Proteins , Drosophila/growth & development , Microfilament Proteins , Mutation , Ovary/pathology , Transcription Factors , rho GTP-Binding Proteins/genetics , Actins/ultrastructure , Animals , Cytoskeleton/genetics , Cytoskeleton/ultrastructure , Drosophila/embryology , Embryo, Nonmammalian , Female , Gene Expression Regulation, Developmental , Head/abnormalities , Homeodomain Proteins/genetics , Homeodomain Proteins/metabolism , Homozygote , Insect Proteins/genetics , Insect Proteins/metabolism , JNK Mitogen-Activated Protein Kinases , Mitogen-Activated Protein Kinases/metabolism , Morphogenesis/physiology , Ovary/embryology , Phenotype , Phosphoprotein Phosphatases/genetics , Phosphoprotein Phosphatases/metabolism , Proto-Oncogene Proteins/genetics , Proto-Oncogene Proteins/metabolism , Signal Transduction , Wnt1 Protein , Zygote , rho GTP-Binding Proteins/metabolism
2.
Dev Biol ; 202(1): 113-24, 1998 Oct 01.
Article in English | MEDLINE | ID: mdl-9758707

ABSTRACT

Fertilin, a sperm protein of the metalloprotease/disintegrin/cysteine-rich (MDC) family, plays a critical role in sperm-egg binding in mammals. Peptides corresponding to the disintegrin domain of fertilin and antibodies against fertilin have been shown to inhibit mammalian sperm-egg binding and fusion. A protein from the same family, xMDC16, was recently cloned from frog (Xenopus laevis) testis and was found to be involved in frog sperm-egg binding. Here we report that xMDC16 is localized predominantly on the posterior surface of egg jelly-activated sperm, and peptides from the disintegrin domain of this protein activate eggs when applied near the egg surface. Egg activation was dependent on (1) specific amino acid residues (KTX); (2) the presence of divalent cations, but not external Ca2+ alone; and (3) voltage across the egg plasma membrane. This is the first demonstration of egg activation in vertebrates by the surface application of a peptide derived from a sperm surface protein, supporting a model for egg activation that involves a signal transducing receptor for sperm in the egg's plasma membrane.


Subject(s)
Disintegrins/pharmacology , Membrane Glycoproteins/pharmacology , Ovum/physiology , Sperm-Ovum Interactions/physiology , Spermatozoa/chemistry , Animals , Calcium/metabolism , Calcium/physiology , Cations, Divalent , Disintegrins/analysis , Female , Magnesium/physiology , Male , Membrane Glycoproteins/analysis , Patch-Clamp Techniques , Recombinant Fusion Proteins , Signal Transduction , Xenopus laevis
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