Shiro Mitsuya
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Explore the profile of Shiro Mitsuya including associated specialties, affiliations and a list of published articles.
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21
Citations
188
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Recent Articles
1.
de Ocampo M, Tam B, Egdane J, Chebotarov D, Doi K, Yamauchi A, et al.
Ann Bot
. 2024 Dec;
PMID: 39731213
Background And Aims: Since salinity stress may occur across stages of rice (Oryza sativa L.) crop growth, understanding the effects of salinity at reproductive stage is important although it has...
2.
Sugiura D, Mitsuya S, Takahashi H, Yamamoto R, Miyazawa Y
Plant Methods
. 2024 Nov;
20(1):179.
PMID: 39582011
Background: Climate change and the growing demand for agricultural water threaten global food security. Understanding water use characteristics of major crops from leaf to field scale is critical, particularly for...
3.
Goto I, Neang S, Kuroki R, Reyes V, Doi K, Skoulding N, et al.
Front Plant Sci
. 2022 Oct;
13:1002605.
PMID: 36304401
Over-accumulation of salt in rice plants is an effect of salt stress which decreases growth and grain yield. Salt removal ability in leaf sheaths is a tolerance mechanism to decrease...
4.
de Ocampo M, Ho V, Thomson M, Mitsuya S, Yamauchi A, Ismail A
Euphytica
. 2022 Sep;
218(6):74.
PMID: 36060537
Supplementary Information: The online version contains supplementary material available at 10.1007/s10681-022-03026-8.
5.
Cartagena J, Yao Y, Mitsuya S, Tsuge T
Physiol Plant
. 2021 Sep;
173(4):1629-1642.
PMID: 34510489
Salinity tolerance in rice is a very important trait, especially in areas that are affected by soil salinity, such as tsunami-devastated areas and coastal regions in rice-producing countries. The roots...
6.
Neang S, Goto I, Skoulding N, Cartagena J, Kano-Nakata M, Yamauchi A, et al.
BMC Plant Biol
. 2020 Nov;
20(1):502.
PMID: 33143652
Background: A significant mechanism of salt-tolerance in rice is the ability to remove Na and Cl in the leaf sheath, which limits the entry of these toxic ions into the...
7.
Neang S, De Ocampo M, Egdane J, Platten J, Ismail A, Seki M, et al.
Ann Bot
. 2020 Oct;
126(7):1193-1202.
PMID: 33009812
Background And Aims: The ability for salt removal at the leaf sheath level is considered to be one of the major mechanisms associated with salt tolerance in rice. Thus, understanding...
8.
Nakamura M, Suzuki T, Yoshida T, Kato T, Oi T, Mitsuya S, et al.
Breed Sci
. 2020 Jul;
70(3):402-408.
PMID: 32714064
To elucidate the resistance mechanisms of the rice ( L.) cultivar 'Milyang 44' against rice stink bugs, we compared the number of stylet sheaths, husk perforations, and feeding marks on...
9.
Mitsuya S, Murakami N, Sato T, Kazama T, Toriyama K, Skoulding N, et al.
AoB Plants
. 2019 Oct;
11(5):plz040.
PMID: 31632626
The ability to tolerate salt differs with the growth stages of rice and thus the yield components that are determined during various growth stages, are differentially affected by salt stress....
10.
Neang S, De Ocampo M, Egdane J, Platten J, Ismail A, Skoulding N, et al.
Funct Plant Biol
. 2019 May;
46(8):743-755.
PMID: 31046903
Salt sensitivity in rice plants is associated with the accumulated amount of Na+ and Cl- in shoots and, more significantly, in photosynthetic tissues. Therefore, salt removal ability at the leaf...