Yoichiro Kamimura
Overview
Explore the profile of Yoichiro Kamimura including associated specialties, affiliations and a list of published articles.
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31
Citations
1380
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Recent Articles
1.
Banerjee T, Matsuoka S, Biswas D, Miao Y, Pal D, Kamimura Y, et al.
Nat Commun
. 2023 Nov;
14(1):7909.
PMID: 38036511
The plasma membrane is widely regarded as the hub of the numerous signal transduction activities. Yet, the fundamental biophysical mechanisms that spatiotemporally compartmentalize different classes of membrane proteins remain unclear....
2.
Banerjee T, Matsuoka S, Biswas D, Miao Y, Pal D, Kamimura Y, et al.
bioRxiv
. 2023 Jan;
PMID: 36712016
The plasma membrane is widely regarded as the hub of the signal transduction network activities that drives numerous physiological responses, including cell polarity and migration. Yet, the symmetry breaking process...
3.
Takebayashi K, Kamimura Y, Ueda M
J Cell Sci
. 2023 Jan;
136(4).
PMID: 36655427
The lateral diffusion of transmembrane proteins on plasma membranes is a fundamental process for various cellular functions. Diffusion properties specific for individual protein species have been extensively studied, but the...
4.
Ogasawara T, Watanabe J, Adachi R, Ono Y, Kamimura Y, Muramoto T
Sci Rep
. 2022 Jul;
12(1):11215.
PMID: 35780186
Genome-wide screening is powerful method used to identify genes and pathways associated with a phenotype of interest. The simple eukaryote Dictyostelium discoideum has a unique life cycle and is often...
5.
Yamashita K, Iriki H, Kamimura Y, Muramoto T
Front Cell Dev Biol
. 2021 Sep;
9:721630.
PMID: 34485304
The development of new techniques to create gene knockouts and knock-ins is essential for successful investigation of gene functions and elucidation of the causes of diseases and their associated fundamental...
6.
Kamimura Y, Ueda M
Front Cell Dev Biol
. 2021 Aug;
9:724797.
PMID: 34414196
Chemotaxis describes directional motility along ambient chemical gradients and has important roles in human physiology and pathology. Typical chemotactic cells, such as neutrophils and cells, can detect spatial differences in...
7.
Kamimura Y, Ueda M
Methods Mol Biol
. 2021 May;
2274:317-336.
PMID: 34050483
GPCR signaling is the most prevailing molecular mechanism for detecting ambient signals in eukaryotes. Chemotactic cells use GPCR signaling to process chemical cues for directional migration over a broad concentration...
8.
Yamazaki S, Hashimura H, Morimoto Y, Miyanaga Y, Matsuoka S, Kamimura Y, et al.
Biochem Biophys Res Commun
. 2020 Feb;
525(2):372-377.
PMID: 32098673
Collective cell migration is a key process during the development of multicellular organisms, in which the migrations of individual cells are coordinated through chemical guidance and physical contact between cells....
9.
Senoo H, Kamimura Y, Kimura R, Nakajima A, Sawai S, Sesaki H, et al.
Nat Cell Biol
. 2019 Jul;
21(7):867-878.
PMID: 31263268
mTORC2 plays critical roles in metabolism, cell survival and actin cytoskeletal dynamics through the phosphorylation of AKT. Despite its importance to biology and medicine, it is unclear how mTORC2-mediated AKT...
10.
Miyanaga Y, Kamimura Y, Kuwayama H, Devreotes P, Ueda M
Biochem Biophys Res Commun
. 2018 Nov;
507(1-4):304-310.
PMID: 30454895
The wide range sensing of extracellular signals is a common feature of various sensory cells. Eukaryotic chemotactic cells driven by GPCRs and their cognate G proteins are one example. This...