Masashi Kishi scite author profile

Electrical activity in neurons is generally initiated in dendritic processes then propagated along axons to synapses, where it is passed to other neurons. Major structural features of neurons-their dendrites and axons-are thus related to their fundamental functions: the receipt and transmission of information. The acquisition of these distinct properties by dendrites and axons, called polarization, is a critical step in neuronal differentiation. We show here that SAD-A and SAD-B, mammalian orthologs of a kinase needed for presynaptic differentiation in Caenorhabditis elegans, are required for neuronal polarization. These kinases will provide entry points for unraveling signaling mechanisms that polarize neurons.

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Interspecies diversity of the occludin sequence: cDNA cloning of human, mouse, dog, and rat-kangaroo homologues.

Ando‐Akatsuka

et al. 1996

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A novel homeobox gene, dharma, can induce the organizer in a non-cell-autonomous manner

Yamanaka¹,

Mizuno²,

Sasai³

et al. 1998

Genes Dev.

122

125

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The formation of Spemann organizer is one of the most important steps in dorsoventral axis determination in vertebrate development. However, whether the organizer forms autonomously or is induced non-cell-autonomously is controversial. In this report we have isolated a novel zebrafish homeobox gene, dharma, capable of inducing the organizer ectopically. The expression of dharma was first detected in several blastomeres at one side of the margin soon after the mid-blastula transition and continued in the dorsal side of the yolk syncytial layer (YSL) under the embryonic shield, the zebrafish organizer, until the onset of gastrulation. Furthermore, dharma expressed in the YSL induced the organizer in a non-cell-autonomous manner. These results provided the first identification of a zygotic gene to be implicated in the formation of an organizer-inducing center.

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SoxD

Mizuseki

Kishi

Shiota

et al. 1998

Neuron

164

104

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Vertebrate neurogenesis is initiated by the organizer factors that inhibit antineuralizing activities of bone morphogenetic proteins (BMPs) in the ectoderm. Here, we report a candidate mediator of neuralization, SoxD. Expression of SoxD starts at late blastula stages widely in the prospective ectoderm and becomes restricted to the dorsal ectoderm by mid-gastrula stages. SoxD expression is enhanced by the neural inducer Chordin and is suppressed by BMP4 and its downstream genes. Microinjection of SoxD mRNA causes ectopic formation of neural tissues in vivo and induces neural and neuronal markers in the isolated animal cap. Injection of a dominant-negative form of SoxD mRNA can block neuralization of ectoderm caused by attenuation of BMP signals and can strongly suppress formation of anterior neural tissues in vivo. These data show that SoxD functions as an essential mediator of downstream signaling of neural induction.

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Morbidity and mortality of hospitalized patients after the 1995 Hanshin-Awaji earthquake

Tanaka

Oda

Iwai

et al. 1999

The American Journal of Emergency Medicine

133

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Masashi Kishi

Mammalian SAD Kinases Are Required for Neuronal Polarization

Interspecies diversity of the occludin sequence: cDNA cloning of human, mouse, dog, and rat-kangaroo homologues.

A novel homeobox gene, dharma, can induce the organizer in a non-cell-autonomous manner

SoxD

Morbidity and mortality of hospitalized patients after the 1995 Hanshin-Awaji earthquake

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