A
Ayako Shiraki
Researcher at Tokyo University of Agriculture and Technology
Publications - 29
Citations - 414
Ayako Shiraki is an academic researcher from Tokyo University of Agriculture and Technology. The author has contributed to research in topics: Hippocampal formation & Dentate gyrus. The author has an hindex of 11, co-authored 29 publications receiving 343 citations. Previous affiliations of Ayako Shiraki include Gifu University.
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Developmental exposure to manganese chloride induces sustained aberration of neurogenesis in the hippocampal dentate gyrus of mice.
Liyun Wang,Takumi Ohishi,Ayako Shiraki,Reiko Morita,Reiko Morita,Hirotoshi Akane,Hirotoshi Akane,Yoshiaki Ikarashi,Kunitoshi Mitsumori,Makoto Shibutani +9 more
TL;DR: Results suggest that Mn targets immature granule cells causing apoptosis and neuronal mismigration, and sustained increases in immature reelin-synthesizing GABAergic interneurons may represent continued aberration in neurogenesis and following migration to cause an excessive response for overproduction of immature granules cells through to the adult stage.
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Methacarn as a whole brain fixative for gene and protein expression analyses of specific brain regions in rats
Hirotoshi Akane,Fumiyo Saito,Hidenori Yamanaka,Ayako Shiraki,Ayako Shiraki,Nobuya Imatanaka,Yumi Akahori,Reiko Morita,Reiko Morita,Kunitoshi Mitsumori,Makoto Shibutani +10 more
TL;DR: It is suggested that whole brain fixation with methacarn retains advantages for global analyses of mRNAs and polypeptides in rodent studies and subsequent tissue sampling using punch-biopsy devices for gene expression analysis in rats.
Journal ArticleDOI
Aberration in Epigenetic Gene Regulation in Hippocampal Neurogenesis by Developmental Exposure to Manganese Chloride in Mice
Liyun Wang,Ayako Shiraki,Ayako Shiraki,Megu Itahashi,Megu Itahashi,Hirotoshi Akane,Hajime Abe,Hajime Abe,Kunitoshi Mitsumori,Makoto Shibutani +9 more
TL;DR: Findings indicate epigenetic mechanisms as mediators, through which Mn exposure modulates neurogenesis involving both granule cell lineage and GABAergic interneurons with long-lasting and stable repercussions.
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Similar distribution changes of GABAergic interneuron subpopulations in contrast to the different impact on neurogenesis between developmental and adult-stage hypothyroidism in the hippocampal dentate gyrus in rats
Ayako Shiraki,Hirotoshi Akane,Takumi Ohishi,Liyun Wang,Reiko Morita,Kazuhiko Suzuki,Kunitoshi Mitsumori,Makoto Shibutani +7 more
TL;DR: Subpopulation changes in GABAergic interneuron subpopulations by hypothyroidism may be the signature of aberrant neurogenesis even at the adult stage.
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Glycidol induces axonopathy by adult stage-exposure and aberration of hippocampal neurogenesis affecting late-stage differentiation by developmental exposure in rats
Hirotoshi Akane,Ayako Shiraki,Ayako Shiraki,Nobuya Imatanaka,Yumi Akahori,Megu Itahashi,Megu Itahashi,Takumi Ohishi,Kunitoshi Mitsumori,Makoto Shibutani +9 more
TL;DR: Glycidol caused axon injury in the central and peripheral nervous systems of adult rats, suggesting that glycidol targets the newly generating nerve terminals of immature granule cells, resulting in the suppression of late-stage hippocampal neurogenesis.