Abstract
In Drosophila, most neuronal siblings have different fates ('A/B'). Here we demonstrate that mutations in sanpodo, a tropomodulin actin-binding protein homologue, equalize a diverse array of sibling neuron fates ('B/B'). Loss of Notch signaling gives the same phenotype, whereas loss of numb gives the opposite phenotype ('A/A'). The identical effect of removing either sanpodo or Notch function on the fates of sibling CNS neurons indicates that sanpodo may act in the Notch signaling pathway. In addition, sanpodo and numb show dosage-sensitive interactions and epistasis experiments indicate that sanpodo acts downstream of numb. Taken together, these results show that interactions between sanpodo, the Notch signaling pathway and numb enable CNS sibling neurons to acquire different fates.
Publication types
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Research Support, Non-U.S. Gov't
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Research Support, U.S. Gov't, P.H.S.
MeSH terms
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Animals
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Carrier Proteins / genetics
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Carrier Proteins / physiology*
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Cell Lineage
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Central Nervous System / cytology
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Central Nervous System / embryology
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Drosophila / embryology*
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Drosophila / genetics
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Drosophila Proteins*
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Epistasis, Genetic
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Genes, Insect / physiology
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Insect Proteins / genetics
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Insect Proteins / physiology
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Juvenile Hormones / genetics
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Juvenile Hormones / physiology
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Membrane Proteins / genetics
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Membrane Proteins / physiology*
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Microfilament Proteins
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Mutagenesis
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Mutation
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Neurons / cytology*
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Nuclear Proteins / genetics
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Nuclear Proteins / physiology
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Phenotype
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Receptors, Notch
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Signal Transduction / physiology
Substances
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Carrier Proteins
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Drosophila Proteins
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Insect Proteins
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Juvenile Hormones
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Membrane Proteins
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Microfilament Proteins
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N protein, Drosophila
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Nuclear Proteins
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Receptors, Notch
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mam protein, Drosophila
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numb protein, Drosophila
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spdo protein, Drosophila