Shigetaka Yasuda
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Explore the profile of Shigetaka Yasuda including associated specialties, affiliations and a list of published articles.
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18
Citations
544
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Recent Articles
1.
Okada K, Yachi K, Nguyen T, Kanno S, Yasuda S, Tadai H, et al.
Plant J
. 2024 Nov;
120(6):2639-2655.
PMID: 39544094
Plants acquire phosphorus (P) primarily as inorganic phosphate (Pi) from the soil. Under Pi deficiency, plants induce an array of physiological and morphological responses, termed phosphate starvation response (PSR), thereby...
2.
Luo Y, Yasuda S, Takagi J, Hasegawa Y, Chiba Y, Yamaguchi J, et al.
Biochem Biophys Res Commun
. 2022 Nov;
636(Pt 2):55-61.
PMID: 36347172
Ubiquitination is an important post-translational modification that regulates multiple cellular activities in plants including environmental stress responses. In addition to activity of ubiquitin ligases, the activity of deubiquitinating enzymes (DUBs)...
3.
Luo Y, Takagi J, Neubus Claus L, Zhang C, Yasuda S, Hasegawa Y, et al.
EMBO Rep
. 2022 Feb;
23(4):e53354.
PMID: 35166439
Protein ubiquitination is a dynamic and reversible post-translational modification that controls diverse cellular processes in eukaryotes. Ubiquitin-dependent internalization, recycling, and degradation are important mechanisms that regulate the activity and the...
4.
Hasegawa Y, Huarancca Reyes T, Uemura T, Baral A, Fujimaki A, Luo Y, et al.
Plant Cell
. 2022 Jan;
34(4):1354-1374.
PMID: 35089338
Ubiquitination is a post-translational modification involving the reversible attachment of the small protein ubiquitin to a target protein. Ubiquitination is involved in numerous cellular processes, including the membrane trafficking of...
5.
Li X, Sanagi M, Lu Y, Nomura Y, Stolze S, Yasuda S, et al.
Front Plant Sci
. 2020 Apr;
11:377.
PMID: 32308664
Nutrient availability, in particular the availability of sugar [carbon (C)] and nitrogen (N), is important for the regulation of plant metabolism and development. In addition to independent utilization of C...
6.
Arae T, Morita K, Imahori R, Suzuki Y, Yasuda S, Sato T, et al.
Plant Cell Physiol
. 2019 May;
60(9):2015-2025.
PMID: 31093672
CCR4/CAF1 are widely conserved deadenylases in eukaryotes. They form a large complex that includes NOT1 as a scaffold protein and various NOT proteins that are core components of multiple levels...
7.
Shinya T, Yasuda S, Hyodo K, Tani R, Hojo Y, Fujiwara Y, et al.
Plant J
. 2018 Mar;
94(4):626-637.
PMID: 29513388
Plant defense against herbivores is modulated by herbivore-associated molecular patterns (HAMPs) from oral secretions (OS) and/or saliva of insects. Furthermore, feeding wounds initiate plant self-damage responses modulated by danger-associated molecular...
8.
Saijo Y, Loo E, Yasuda S
Plant J
. 2017 Dec;
93(4):592-613.
PMID: 29266555
Plants solely rely on innate immunity of each individual cell to deal with a diversity of microbes in the environment. Extracellular recognition of microbe- and host damage-associated molecular patterns leads...
9.
Yasuda S, Okada K, Saijo Y
Curr Opin Plant Biol
. 2017 May;
38:10-18.
PMID: 28458047
Recognition of microbe- and danger-associated molecular patterns (MAMPs and DAMPs, respectively) by pattern recognition receptors (PRRs) is central to innate immunity in both plants and animals. The plant PRRs described...
10.
Yasuda S, Aoyama S, Hasegawa Y, Sato T, Yamaguchi J
Mol Plant
. 2017 Jan;
10(4):605-618.
PMID: 28111287
In response to the ratio of available carbon (C) and nitrogen (N) nutrients, plants regulate their metabolism, growth, and development, a process called the C/N-nutrient response. However, the molecular basis...