Koki Moriyoshi scite author profile

A complementary DNA encoding the rat NMDA receptor has been cloned and characterized. The single protein encoded by the cDNA forms a receptor-channel complex that has electrophysiological and pharmacological properties characteristic of the NMDA receptor. This protein has a significant sequence similarity to the AMPA/kainate receptors and contains four putative transmembrane segments following a large extracellular domain. The NMDA receptor messenger RNA is expressed in neuronal cells throughout the brain regions, particularly in the hippocampus, cerebral cortex and cerebellum.

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Structures and properties of seven isoforms of the NMDA receptor generated by alternative splicing

Sugihara

Moriyoshi

Ishii

et al. 1992

Biochemical and Biophysical Research Communications

507

287

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Persistent expression of helix-loop-helix factor HES-1 prevents mammalian neural differentiation in the central nervous system.

et al. 1994

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In the developing mammalian central nervous system, neural precursor cells present in the ventricular zone determine their fate to become neurons or glial cells, migrate towards the outer layers and undergo terminal differentiation. The transcriptional repressor HES‐1, a basic helix‐loop‐helix (bHLH) factor structurally related to the Drosophila hairy gene, is expressed at high levels throughout the ventricular zone, but the level decreases as neural differentiation proceeds. Because of this negative correlation, we tested whether continuous expression of HES‐1 inhibits neural differentiation. A HES‐1 and lacZ‐transducing retrovirus (SG‐HES1) and a control lacZ‐transducing retrovirus (SG) were injected into the lateral ventricles of mouse embryos, and the fate of the infected neural precursor cells was examined by X‐gal staining. The SG virus‐infected cells migrated and differentiated into neurons and glial cells. In contrast, the cells infected with SG‐HES1 virus remained in the ventricular/subventricular zone, decreased to approximately 10% in number as compared with that of the newborn during the postnatal 4‐5 weeks and, when they survived, were present exclusively in the ependymal layer. Furthermore, whereas cultured neural precursor cells infected with SG virus became immunoreactive for neuronal and glial markers, the cells infected with SG‐HES1 virus did not. These results show that persistent expression of HES‐1 severely perturbs neuronal and glial differentiation.

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Mammalian achaete-scute and atonal homologs regulate neuronal versus glial fate determination in the central nervous system

et al. 2000

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Whereas vertebrate achaete-scute complex (as-c) and atonal (ato) homologs are required for neurogenesis, their neuronal determination activities in the central nervous system (CNS) are not yet supported by loss-of-function studies, probably because of genetic redundancy. Here, to address this problem, we generated mice double mutant for the as-c homolog Mash1 and the ato homolog Math3. Whereas in Mash1 or Math3 single mutants neurogenesis is only weakly affected, in the double mutants tectal neurons, two longitudinal columns of hindbrain neurons and retinal bipolar cells were missing and, instead, those cells that normally differentiate into neurons adopted the glial fate. These results indicated that Mash1 and Math3 direct neuronal versus glial fate determination in the CNS and raised the possibility that downregulation of these bHLH genes is one of the mechanisms to initiate gliogenesis.

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Koki Moriyoshi

Molecular cloning and characterization of the rat NMDA receptor

Structures and properties of seven isoforms of the NMDA receptor generated by alternative splicing

Persistent expression of helix-loop-helix factor HES-1 prevents mammalian neural differentiation in the central nervous system.

Mammalian achaete-scute and atonal homologs regulate neuronal versus glial fate determination in the central nervous system

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