Saito, Noboru - OU Author List - OKAYAMA UNIVERSITY SCIENTIFIC ACHIEVEMENT REPOSITORY

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筋ジストロフィーニワトリの水分代謝異常

Author	Saito, Noboru\|
Published Date	2014-04
Publication Title	岡山実験動物研究会報
Volume	volume30
Content Type	Others

ニワトリにおける肝臓と腎臓のアクアポリン（AQP）遺伝子発現に対する絶食と再給餌の影響

Author	Saito, Noboru\|
Published Date	2015-02-01
Publication Title	岡山大学農学部学術報告
Volume	volume104
Content Type	Departmental Bulletin Paper

鳥類内耳tegmentum vasculosum の構造と機能

Title Alternative	Structure and function of tegmentum vasculosum in avian cochlea
FullText URL	poalas_033_026_030.pdf
Author	Ikeda, Risa\| Otono, Tsuyoshi\| Ikeda, Naoya\| Saito, Noboru\| Ando, Motonori\|
Abstract	In spite of the importance of endocochlear DC potential (EP) and the K+-rich endolymph for the avian cochlea, the structure and function of the tegmentum vasculosum (TV) has not yet been fully elucidated, compared with those of the stria vascularis in the mammalian cochlea. In this study, we examined structural analysis of the epithelial cells, gene expressions of Na+-K+-ATPase (Atp1A1) and Kir4.1 (Kcnj10), and protein localizations of Na+-K+-ATPase and Kir4.1, in the TV. Tight junctional structures were observed between epithelial dark cells and light cells in the TV. Both Atp1a1 and Kcnj10 genes were detected in the TV. In addition, immunopositive signals for both Na+-K+-ATPase and Kir4.1 were recognized in the TV. These results indicate that Na+-K+-ATPase and Kir4.1 play roles in maintaining the EP and high K+ concentration of the endolymph. Further studies are needed to clarify the physiological functions of the TV. This is the first report which demonstrates that gene and protein expression data contribute to the avian inner ear homeostasis.
Publication Title	Proceedings of Okayama Association for Laboratory Animal Science
Published Date	2017-04
Volume	volume33
Start Page	26
End Page	30
language	Japanese
File Version	publisher

無腸動物Praesagittifera naikaiensis における細胞骨格要素

Title Alternative	Cytoskeletal elements in an acoelomorph worm, Praesagittifera naikaiensis
FullText URL	poalas_034_021_180706.pdf
Author	Ikeda, Risa\| Fujiwara, Chiho\| Hamada, Mayuko\| Sakamoto, Tatsuya\| Saito, Noboru\| Ando, Motonori\|
Abstract	Acoel flatworms can move in a variety of ways such as muscular and ciliary movements via cytoskeletal elements and their neural regulations. However, those locomotive mechanisms have not yet been fully elucidated. In this study, we examined the distribution of cytoskeletal elements including filamentous actin (F-actin) and tubulin, and the neuroanatomical organization in an acoelomorph worm, Praesagittifera naikaiensis (P. naikaiensis). Video microscopy revealed the elongation/contraction and the bending/rotation processes, and the ciliary gliding movement of P. naikaiensis. Histochemical and morphological analysis demonstrated that F-actin networks of inner longitudinal and outer circular muscle fibers were positioned along the entire surface of the body, and that the average distance between the circular muscle fibers in the contracted organism was decreased in the anterior region compared with that in the elongated organism. Electron microscopy showed dense bodies on the muscle cells of P. naikaiensis, which indicates that those muscle cells have the appearance of vertebrate smooth muscle cells. Immunohistochemical analysis revealed that -tubulin-positive signals on the ciliary microtubules had close contact with the F-actin network, and that neurite bundles labelled with anti dSap47 antibody as a neuronal marker run along the anterior-posterior body axis. These results indicate that the well-organized cytoskeletal elements and their neural control systems are preserved in P. naikaiensis, and that their mechanisms involved in those regulation systems are similar to those vertebrate systems. Further studies are needed to clarify the physiological mechanisms underlying the muscular and ciliary movements in P. naikaiensis.
Publication Title	Proceedings of Okayama Association for Laboratory Animal Science
Published Date	2018-04
Volume	volume34
Start Page	21
End Page	27
language	Japanese
File Version	publisher
NAID	120006469118

Immunocytochemical Analysis of α-Tubulin Distribution Before and After Rapid Axopodial Contraction in the Centrohelid Raphidocystis contractilis

FullText URL	fulltext.pdf
Author	Ikeda, Risa\| Kurokawa, Miki\| Murai, Momoka\| Saito, Noboru\| Ando, Motonori\|
Keywords	heliozoa immunocytochemistry microtubule glutaraldehyde confocal microscopy
Published Date	2020
Publication Title	Acta Protozoologica
Volume	volume59
Issue	issue1
Start Page	1
End Page	12
ISSN	0065-1583
NCID	AA00510002
Content Type	Journal Article
language	English
OAI-PMH Set	岡山大学
File Version	publisher
DOI	10.4467/16890027AP.20.001.12157
Web of Science KeyUT	000605760600001