Yuichi Tada
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Explore the profile of Yuichi Tada including associated specialties, affiliations and a list of published articles.
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Articles
23
Citations
299
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Recent Articles
1.
Takagi K, Yokoyama M, Beppu T, Uemori H, Ohno H, Murakami T, et al.
Plant Biotechnol (Tokyo)
. 2025 Mar;
41(4):469-472.
PMID: 40083568
KODA, a type of oxylipin, has stimulatory effects on plant growth under limiting conditions of stress, such as promoting flowering, rooting, and resistance to pathogens, for use in agriculture. KODA...
2.
Yokoyama M, Kaida R, Miyamoto K, Tada Y, Fujii Y
Plant Biotechnol (Tokyo)
. 2025 Mar;
41(4):473-477.
PMID: 40083564
α-Ketol octadecadienoic acid (KODA), an oxylipin, is generated from linolenic acid by 9-specific lipoxygenase, while jasmonic acid is ultimately synthesized from the same linolenic acid by 13-specific lipoxygenase. KODA has...
3.
Tada Y, Shimizu A
Sci Rep
. 2024 Nov;
14(1):26713.
PMID: 39496723
Constitutive overexpression of phosphate (Pi) transporter family 1 often results in the accumulation of toxic levels of Pi, which causes growth retardation in plants. In contrast, we had previously reported...
4.
Tada Y, Kochiya R, Toyoizumi M, Takano Y
Plant Biotechnol (Tokyo)
. 2024 Mar;
40(4):301-309.
PMID: 38434114
Turfgrasses show a wide range of salinity tolerance. In this study, twenty wild turfgrasses were collected from coastal regions in Japan, and their species; evolutionary lineage; salt tolerance levels; shoot...
5.
Noike Y, Okamoto I, Tada Y
Plant Sci
. 2022 Nov;
327:111540.
PMID: 36410568
Although attempts to improve the phosphate (Pi) uptake and use efficiency by constitutively overexpressing phosphate transporters have resulted in enhanced Pi or total phosphorous contents, growth promotion by Pi acquisition...
6.
Kato Y, Tada Y
Plant Biotechnol (Tokyo)
. 2022 Jan;
38(4):443-448.
PMID: 35087309
To prepare various root active promoters for expressing transgenes and prevent gene silencing caused by the repeated use of the same promoter, the expression characteristics of various root active promoters...
7.
Kawakami Y, Imran S, Katsuhara M, Tada Y
Int J Mol Sci
. 2020 Aug;
21(17).
PMID: 32847126
We characterized an Na transporter SvHKT1;1 from a halophytic turf grass, . SvHKT1;1 mediated inward and outward Na transport in oocytes and did not complement K transporter-defective mutant yeast. SvHKT1;1...
8.
Tada Y, Ohnuma A
Plants (Basel)
. 2020 Jun;
9(6).
PMID: 32585860
Class II high-affinity potassium transporters (HKT2s) mediate Na-K cotransport and Na/K homeostasis under K-starved or saline conditions. Their functions have been studied in yeast and oocytes; however, little is known...
9.
Tada Y
Plants (Basel)
. 2019 Jul;
8(7).
PMID: 31277362
The high-affinity K transporter (AtHKT1;1) plays roles in salt tolerance by unloading Na from the root xylem to the xylem parenchyma cells and/or uploading Na from the shoot/leaf xylem to...
10.
Tada Y, Kawano R, Komatsubara S, Nishimura H, Katsuhara M, Ozaki S, et al.
Plant Sci
. 2018 Nov;
278:54-63.
PMID: 30471729
Sporobolus virginicus is a halophytic C grass found worldwide, from tropical to warm temperate regions. One Japanese genotype showed a salinity tolerance up to 1.5 M NaCl, a three-fold higher...