Hinako Takehisa
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Explore the profile of Hinako Takehisa including associated specialties, affiliations and a list of published articles.
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15
Citations
1166
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Recent Articles
1.
Takehisa H, Ando F, Takara Y, Ikehata A, Sato Y
Plant Cell Environ
. 2022 Feb;
45(5):1507-1519.
PMID: 35128701
Phosphorus (P) is one of the macronutrients indispensable for crop production, and therefore it is important to understand the potential of plants to adapt to low P conditions. We compared...
2.
Takehisa H, Sato Y
Breed Sci
. 2021 Mar;
71(1):76-88.
PMID: 33762878
Genome-wide transcriptome profiling is a powerful tool for identifying key genes and pathways involved in plant development and physiological processes. This review summarizes studies that have used transcriptome profiling mainly...
3.
Takehisa H, Sato Y
Plant J
. 2018 Nov;
97(6):1048-1060.
PMID: 30481387
Crop plants undergo morpho-physiological changes throughout the growth process in response to both the internal and the external environment, and that eventually determine the yield. The system-level adjustment of the...
4.
Morita R, Nakagawa M, Takehisa H, Hayashi Y, Ichida H, Usuda S, et al.
Biosci Biotechnol Biochem
. 2016 Nov;
81(2):271-282.
PMID: 27804786
We isolated a cold sensitive virescent1 (csv1) mutant from a rice (Oryza sativa L.) population mutagenized by carbon ion irradiation. The mutant exhibited chlorotic leaves during the early growth stages,...
5.
Itoh J, Sato Y, Hibara K, Shimizu-Sato S, Kobayashi H, Takehisa H, et al.
Development
. 2016 Feb;
143(7):1217-27.
PMID: 26903508
Embryogenesis in rice is different from that of most dicotolydonous plants in that it shows a non-stereotypic cell division pattern, formation of dorsal-ventral polarity, and endogenous initiation of the radicle....
6.
Takehisa H, Sato Y, Antonio B, Nagamura Y
Rice (N Y)
. 2015 Jul;
8(1):59.
PMID: 26206757
Background: Macronutrients are pivotal elements for proper plant growth and development. Although extensive gene expression profiling revealed a large number of genes differentially expressed under various nutrient deprivation, characterization of...
7.
Uga Y, Sugimoto K, Ogawa S, Rane J, Ishitani M, Hara N, et al.
Nat Genet
. 2013 Aug;
45(9):1097-102.
PMID: 23913002
The genetic improvement of drought resistance is essential for stable and adequate crop production in drought-prone areas. Here we demonstrate that alteration of root system architecture improves drought avoidance through...
8.
Takehisa H, Sato Y, Antonio B, Nagamura Y
Plant Signal Behav
. 2013 Apr;
8(6):e24409.
PMID: 23603969
Deficiency of the three essential macronutrients, nitrogen, phosphorus and potassium, leads to large reduction in crop growth and yield. To characterize the molecular genetic basis of adaptation to macronutrient deprivation,...
9.
Sato Y, Namiki N, Takehisa H, Kamatsuki K, Minami H, Ikawa H, et al.
Nucleic Acids Res
. 2012 Nov;
41(Database issue):D1214-21.
PMID: 23180784
Similarity of gene expression across a wide range of biological conditions can be efficiently used in characterization of gene function. We have constructed a rice gene coexpression database, RiceFREND (http://ricefrend.dna.affrc.go.jp/),...
10.
Sato Y, Takehisa H, Kamatsuki K, Minami H, Namiki N, Ikawa H, et al.
Nucleic Acids Res
. 2012 Nov;
41(Database issue):D1206-13.
PMID: 23180765
A wide range of resources on gene expression profiling enhance various strategies in plant molecular biology particularly in characterization of gene function. We have updated our gene expression profile database,...