Yusuke T Maeda
Overview
Explore the profile of Yusuke T Maeda including associated specialties, affiliations and a list of published articles.
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30
Citations
440
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Recent Articles
1.
Kashiwabara T, Fukuyama T, Maeda Y
Sci Rep
. 2024 Dec;
14(1):31339.
PMID: 39732914
The actomyosin cytoskeleton, a protein assembly comprising actin fibers and the myosin molecular motor, drives various cellular dynamics through contractile force generation at high densities. However, the relationship between the...
2.
Tanaka A, Fukuyama T, Maeda Y, Shimamoto Y
Methods Mol Biol
. 2024 Dec;
2872:117-130.
PMID: 39616572
The bipolar shape of the microtubule-based spindle is a pivotal morphological phenotype for accurate chromosome segregation during cell division. However, existing descriptions of spindle morphogenesis remain largely qualitative. Here, we...
3.
Sakamoto R, Maeda Y
Biophys Physicobiol
. 2023 Dec;
20(3):e200032.
PMID: 38124798
Single-cell behaviors cover many biological functions, such as cell division during morphogenesis and tissue metastasis, and cell migration during cancer cell invasion and immune cell responses. Symmetry breaking of the...
4.
Ienaga R, Beppu K, Maeda Y
Soft Matter
. 2023 Jun;
19(26):5016-5028.
PMID: 37357692
Topological defects in nematically aligned cell populations play a critical role in modulating collective motion, ranging from microbial colonies to epithelial tissues. Despite the potential of manipulating such topological defects...
5.
Fukuyama T, Yan L, Tanaka M, Yamaoka M, Saito K, Ti S, et al.
Proc Natl Acad Sci U S A
. 2022 Oct;
119(44):e2209053119.
PMID: 36282919
The spindle is a dynamic intracellular structure self-organized from microtubules and microtubule-associated proteins. The spindle's bipolar morphology is essential for the faithful segregation of chromosomes during cell division, and it...
6.
Shigeta K, Fukuyama T, Takahashi R, Beppu K, Tanaka A, Maeda Y
RSC Adv
. 2022 Aug;
12(31):20174-20181.
PMID: 35919621
Epithelial cells migrate autonomously by aligning and inducing a collective motion. Controlling the collective motion of epithelial cells in geometrically confined environments is important for understanding physiological processes such as...
7.
Sakamoto R, Izri Z, Shimamoto Y, Miyazaki M, Maeda Y
Proc Natl Acad Sci U S A
. 2022 Jul;
119(30):e2121147119.
PMID: 35857875
Cell migration in confined environments is fundamental for diverse biological processes from cancer invasion to leukocyte trafficking. The cell body is propelled by the contractile force of actomyosin networks transmitted...
8.
Beppu K, Maeda Y
Biophys Physicobiol
. 2022 Jul;
19:1-9.
PMID: 35797406
Ordered collective motion emerges in a group of autonomously motile elements (known as active matter) as their density increases. Microswimmers, such as swimming bacteria, have been extensively studied in physics...
9.
Maeda Y
Sci Rep
. 2022 Jun;
12(1):10516.
PMID: 35732682
Gene expression via transcription-translation is the most fundamental reaction to sustain biological systems, and complex reactions occur in a small compartment of living cells. There is increasing evidence that physical...
10.
Kikuchi K, Fukuyama T, Uchihashi T, Furuta T, Maeda Y, Ueno T
Small
. 2022 Jan;
18(10):e2106401.
PMID: 34989115
The dynamic process of formation of protein assemblies is essential to form highly ordered structures in biological systems. Advances in structural and synthetic biology have led to the construction of...