An Obligatory Role of Mind Bomb-1 in Notch Signaling of Mammalian Development
Copyright policy )An Obligatory Role of Mind Bomb-1 in Notch Signaling of Mammalian Development
The Notch signaling pathway is an evolutionarily conserved intercellular signaling module essential for cell fate specification that requires endocytosis of Notch ligands. Structurally distinct E3 ubiquitin ligases, Neuralized (Neur) and Mind bomb (Mib), cooperatively regulate the endocytosis of Notch ligands in Drosophila. However, the respective roles of the mammalian E3 ubiquitin ligases, Neur1, Neur2, Mib1, and Mib2, in mammalian development are poorly understood.Through extensive use of mammalian genetics, here we show that Neur1 and Neur2 double mutants and Mib2(-/-) mice were viable and grossly normal. In contrast, conditional inactivation of Mib1 in various tissues revealed the representative Notch phenotypes: defects of arterial specification as deltalike4 mutants, abnormal cerebellum and skin development as jagged1 conditional mutants, and syndactylism as jagged2 mutants.Our data provide the first evidence that Mib1 is essential for Jagged as well as Deltalike ligand-mediated Notch signaling in mammalian development, while Neur1, Neur2, and Mib2 are dispensable.
- University of California, San Francisco United States
- Pohang University of Science and Technology Korea (Republic of)
- Howard Hughes Medical Institute United States
- UNIST (Ulsan National Institute of Science and Technology) Korea (Republic of)
- Chonnam National University Korea (Republic of)
Mice, Knockout, 570, 571, Receptors, Notch, Science, Ubiquitin-Protein Ligases, Q, R, Embryonic Development, Membrane Proteins, Exons, Polymerase Chain Reaction, Mice, Phenotype, Mutation, Medicine, Animals, Gene Silencing, Jagged-2 Protein, Research Article, Signal Transduction
Mice, Knockout, 570, 571, Receptors, Notch, Science, Ubiquitin-Protein Ligases, Q, R, Embryonic Development, Membrane Proteins, Exons, Polymerase Chain Reaction, Mice, Phenotype, Mutation, Medicine, Animals, Gene Silencing, Jagged-2 Protein, Research Article, Signal Transduction
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