Tomoyuki Hatano
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Explore the profile of Tomoyuki Hatano including associated specialties, affiliations and a list of published articles.
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16
Citations
218
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Recent Articles
1.
Souza D, Espadas J, Chaaban S, Moody E, Hatano T, Balasubramanian M, et al.
Sci Adv
. 2025 Feb;
11(6):eads5255.
PMID: 39919172
ESCRT-III proteins assemble into composite polymers that undergo stepwise changes in composition and structure to deform membranes across the tree of life. Here, using a phylogenetic analysis, we demonstrate that...
2.
Arora A, Huang H, Singh R, Narui Y, Suchenko A, Hatano T, et al.
Elife
. 2023 Feb;
12.
PMID: 36790143
Actin isoforms organize into distinct networks that are essential for the normal function of eukaryotic cells. Despite a high level of sequence and structure conservation, subtle differences in their design...
3.
Chin S, Hatano T, Sivashanmugam L, Suchenko A, Kashina A, Balasubramanian M, et al.
J Biol Chem
. 2022 Sep;
298(11):102518.
PMID: 36152749
The great diversity in actin network architectures and dynamics is exploited by cells to drive fundamental biological processes, including cell migration, endocytosis, and cell division. While it is known that...
4.
Hatano T, Lim T, Billault-Chaumartin I, Dhar A, Gu Y, Massam-Wu T, et al.
J Cell Sci
. 2022 Sep;
135(18).
PMID: 36148799
Tropomyosins are structurally conserved α-helical coiled-coil proteins that bind along the length of filamentous actin (F-actin) in fungi and animals. Tropomyosins play essential roles in the stability of actin filaments...
5.
Hatano T, Palani S, Papatziamou D, Salzer R, Souza D, Tamarit D, et al.
Nat Commun
. 2022 Jun;
13(1):3398.
PMID: 35697693
The ESCRT machinery, comprising of multiple proteins and subcomplexes, is crucial for membrane remodelling in eukaryotic cells, in processes that include ubiquitin-mediated multivesicular body formation, membrane repair, cytokinetic abscission, and...
6.
Chew T, Lim T, Osaki Y, Huang J, Kamnev A, Hatano T, et al.
Mol Biol Cell
. 2020 Aug;
31(21):2306-2314.
PMID: 32755476
Eukaryotic cells assemble actomyosin rings during cytokinesis to function as force-generating machines to drive membrane invagination and to counteract the intracellular pressure and the cell surface tension. How the extracellular...
7.
Hatano T, Sivashanmugam L, Suchenko A, Hussain H, Balasubramanian M
J Cell Sci
. 2020 Jan;
133(2).
PMID: 31964701
Actin is one of the most abundant eukaryotic cytoskeletal polymer-forming proteins, which, in the filamentous form, regulates a number of physiological processes, ranging from cell division and migration to development...
8.
Palani S, Koster D, Hatano T, Kamnev A, Kanamaru T, Brooker H, et al.
J Cell Biol
. 2019 Oct;
218(11):3548-3559.
PMID: 31597679
Tropomyosin is a coiled-coil actin binding protein key to the stability of actin filaments. In muscle cells, tropomyosin is subject to calcium regulation, but its regulation in nonmuscle cells is...
9.
Morigasaki S, Chin L, Hatano T, Emori M, Iwamoto M, Tatebe H, et al.
J Cell Sci
. 2019 Sep;
132(19).
PMID: 31477575
Sin1 is a substrate-binding subunit of target of rapamycin complex 2 (TORC2), an evolutionarily conserved protein kinase complex. In fission yeast, Sin1 has also been identified as a protein that...
10.
Tanaka N, Hatano T, Saito S, Wakabayashi Y, Abe T, Kawano Y, et al.
J Gen Appl Microbiol
. 2019 Mar;
65(5):234-239.
PMID: 30880290
Many organisms produce endogenous hydrogen sulfide (HS) as a by-product of protein, peptide, or L-cysteine degradation. Recent reports concerning mammalian cells have demonstrated that HS acts as a signaling molecule...