Ryuichi Tatsumi
Overview
Explore the profile of Ryuichi Tatsumi including associated specialties, affiliations and a list of published articles.
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Articles
65
Citations
1018
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0
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Recent Articles
1.
Tanaka S, Elgaabari A, Seki M, Kuwakado S, Zushi K, Miyamoto J, et al.
Aging Cell
. 2024 Sep;
23(10):e14337.
PMID: 39297318
In response to peroxynitrite (ONOO) generation, myogenic stem satellite cell activator HGF (hepatocyte growth factor) undergoes nitration of tyrosine residues (Y198 and Y250) predominantly on fast IIa and IIx myofibers...
2.
Komiya Y, Sakazaki Y, Goto T, Kawabata F, Suzuki T, Sato Y, et al.
iScience
. 2024 May;
27(6):109816.
PMID: 38779480
Muscle fiber type composition (% slow-twitch and % fast-twitch fibers) is associated with metabolism, with increased slow-twitch fibers alleviating metabolic disorders. Previously, we reported that dietary fish oil intake induced...
3.
Komiya Y, Iseki S, Ochiai M, Takahashi Y, Yokoyama I, Suzuki T, et al.
Sci Rep
. 2024 Jan;
14(1):755.
PMID: 38191891
Skeletal muscle is one of the largest metabolic tissues in mammals and is composed of four different types of muscle fibers (types 1, 2A, 2X, and 2B); however, type 2B...
4.
Elgaabari A, Imatomi N, Kido H, Nakashima T, Okuda S, Manabe Y, et al.
Aging Cell
. 2023 Nov;
23(2):e14041.
PMID: 37985931
Mechanical perturbation triggers activation of resident myogenic stem cells to enter the cell cycle through a cascade of events including hepatocyte growth factor (HGF) release from its extracellular tethering and...
5.
Maeno T, Arimatsu R, Ojima K, Yamaya Y, Imakyure H, Watanabe N, et al.
Exp Cell Res
. 2023 Jul;
430(1):113698.
PMID: 37437770
Satellite cells are indispensable for skeletal muscle regeneration and hypertrophy by forming nascent myofibers (myotubes). They synthesize multi-potent modulator netrins (secreted subtypes: netrin-1, -3, and -4), originally found as classical...
6.
Sawano S, Fukushima M, Akasaka T, Nakamura M, Tatsumi R, Ikeuchi Y, et al.
Life (Basel)
. 2023 May;
13(5).
PMID: 37240756
Skeletal muscle atrophy occurs rapidly as a result of inactivity. Although there are many reports on changes in gene expression during the early phase of muscle atrophy, the patterns of...
7.
Ohsawa Y, Ohtsubo H, Munekane A, Ohkubo K, Murakami T, Fujino M, et al.
Am J Pathol
. 2023 Feb;
193(5):591-607.
PMID: 36773783
α-Klotho is a longevity-related protein. Its deficiency shortens lifespan with prominent senescent phenotypes, including muscle atrophy and weakness in mice. α-Klotho has two forms: membrane α-Klotho and circulating α-Klotho (c-α-Klotho)....
8.
Tokunaga K, Akimoto S, Aiba M, Nakagomi M, Suzuki T, Tatsumi R, et al.
J Poult Sci
. 2022 Nov;
59(4):338-347.
PMID: 36348650
Smooth muscle cells are widely distributed in the digestive organs of chickens. They exist as single cells, but adhere to each other to function synchronously. In this study, the expression...
9.
Elgaabari A, Imatomi N, Kido H, Seki M, Tanaka S, Matsuyoshi Y, et al.
Biochem Biophys Rep
. 2022 Jun;
31:101295.
PMID: 35721345
Protein tyrosine residue (Y) nitration, a post-translational chemical-modification mode, has been associated with changes in protein activity and function; hence the accumulation of specific nitrated proteins in tissues may be...
10.
Suzuki T, Mori A, Maeno T, Arimatsu R, Ichimura E, Nishi Y, et al.
Int J Mol Sci
. 2021 Apr;
22(9).
PMID: 33925862
Resident myogenic stem cells (satellite cells) are attracting attention for their novel roles in myofiber type regulation. In the myogenic differentiation phase, satellite cells from soleus muscle (slow fiber-abundant) synthesize...