Masayoshi Nishiyama
Overview
Explore the profile of Masayoshi Nishiyama including associated specialties, affiliations and a list of published articles.
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Articles
39
Citations
409
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Recent Articles
1.
Yamaguchi Y, Nishiyama M, Kai H, Kaneko T, Kaihara K, Iribe G, et al.
Biophys J
. 2022 Nov;
122(1):267.
PMID: 36446384
No abstract available.
2.
Yamaguchi Y, Nishiyama M, Kai H, Kaneko T, Kaihara K, Iribe G, et al.
Biophys J
. 2022 Jul;
121(17):3286-3294.
PMID: 35841143
Cardiomyocytes are contractile cells that regulate heart contraction. Ca flux via Ca channels activates actomyosin interactions, leading to cardiomyocyte contraction, which is modulated by physical factors (e.g., stretch, shear stress,...
3.
Okamoto K, Watanabe T, Horie M, Nishiyama M, Harada Y, Fujita H
Biol Open
. 2021 Jul;
10(7).
PMID: 34258610
We evaluated the effect of high hydrostatic pressure on mouse embryonic fibroblasts (MEFs) and mouse embryonic stem (ES) cells. Hydrostatic pressures of 15, 30, 60, and 90 MPa were applied...
4.
Morikawa T, Nishiyama M, Yoshizawa K, Fujita H, Watanabe T
Biophys Physicobiol
. 2021 Jun;
18:145-158.
PMID: 34178565
The green fluorescent protein (GFP) derived from Pacific Ocean jellyfish is an essential tool in biology. GFP-solvent interactions can modulate the fluorescent property of GFP. We previously reported that glycine...
5.
Toyotake Y, Nishiyama M, Yokoyama F, Ogawa T, Kawamoto J, Kurihara T
Biomolecules
. 2020 May;
10(5).
PMID: 32403425
Lysophosphatidic acid acyltransferase (LPAAT) introduces fatty acyl groups into the -2 position of membrane phospholipids (PLs). Various bacteria produce multiple LPAATs, whereas it is believed that produces only one essential...
6.
7.
Hata H, Nishihara Y, Nishiyama M, Sowa Y, Kawagishi I, Kitao A
Sci Rep
. 2020 Feb;
10(1):2351.
PMID: 32047226
High pressure below 100 MPa interferes inter-molecular interactions without causing pressure denaturation of proteins. In Escherichia coli, the binding of the chemotaxis signaling protein CheY to the flagellar motor protein...
8.
Yagi T, Nishiyama M
Sci Rep
. 2020 Feb;
10(1):2072.
PMID: 32029813
The beating of eukaryotic flagella (also called cilia) depends on the sliding movements between microtubules powered by dynein. In cilia/flagella of most organisms, microtubule sliding is regulated by the internal...
9.
Miyata M, Robinson R, Uyeda T, Fukumori Y, Fukushima S, Haruta S, et al.
Genes Cells
. 2020 Jan;
25(1):6-21.
PMID: 31957229
Motility often plays a decisive role in the survival of species. Five systems of motility have been studied in depth: those propelled by bacterial flagella, eukaryotic actin polymerization and the...
10.
Watanabe N, Morimatsu M, Fujita A, Teranishi M, Sudevan S, Watanabe M, et al.
Biochem Biophys Res Commun
. 2020 Jan;
523(4):853-858.
PMID: 31954516
Mechanical stimulation is well known to be important for maintaining tissue and organ homeostasis. Here, we found that hydrostatic pressure induced nuclear translocation of a forkhead box O (FOXO) transcription...