Her primary scientific interests are in Biochemistry, Proteomics, Proteome, Polyacrylamide gel electrophoresis and Botany. As part of one scientific family, Setsuko Komatsu deals mainly with the area of Biochemistry, narrowing it down to issues related to the Hypocotyl, and often Germination. Her work deals with themes such as Heat shock protein, Biotechnology, Genome, Computational biology and Heavy metals, which intersect with Proteomics.
Her Proteome research includes themes of Cytoplasm, Fight-or-flight response, Molecular biology, Hsp70 and Cell wall. Her Polyacrylamide gel electrophoresis research includes elements of Pathogenesis-related protein, Chromatography, Mass spectrometry and Glycoprotein. Her Botany research incorporates elements of Peroxidase, APX and Cell biology.
Setsuko Komatsu mostly deals with Biochemistry, Proteomics, Botany, Proteome and Gene. Her Biochemistry study frequently draws parallels with other fields, such as Molecular biology. Her Proteomics study deals with Biotechnology intersecting with Crop.
The Botany study combines topics in areas such as Genetically modified rice and Cell biology. The various areas that she examines in her Proteome study include Gibberellin, Amino acid and Database. Her Photosynthesis study integrates concerns from other disciplines, such as Genotype and Drought tolerance.
Her scientific interests lie mostly in Proteomics, Biochemistry, Botany, Photosynthesis and Protein biosynthesis. The study incorporates disciplines such as Proteome, Biotechnology, Metabolomics, Cell biology and Abiotic component in addition to Proteomics. Her study in Glycolysis, Reductase, Abscisic acid, Secondary metabolism and Protein metabolism are all subfields of Biochemistry.
Her work is dedicated to discovering how Abscisic acid, Mutant are connected with RNA and other disciplines. In general Botany study, her work on Hypocotyl and Seedling often relates to the realm of Flooding, thereby connecting several areas of interest. The various areas that Setsuko Komatsu examines in her Photosynthesis study include Oxidative stress, Shoot, Genotype and Drought tolerance.
Setsuko Komatsu mainly investigates Biochemistry, Proteomics, Protein biosynthesis, Glycolysis and Nanoparticle. Her works in Abscisic acid, Reactive oxygen species, Protein folding, Gene and Phosphoprotein are all subjects of inquiry into Biochemistry. Her Proteomics study incorporates themes from Proteome, Biotechnology, Phosphoproteomics and Ribosomal protein.
Her Glycolysis research integrates issues from Alcohol dehydrogenase, Pyruvate decarboxylase, Metabolic pathway and Silver nanoparticle. Her research integrates issues of Hypocotyl, Lipid metabolism, Reductase and Heavy metals in her study of Nanoparticle. Her biological study deals with issues like Malondialdehyde, which deal with fields such as Seedling and Botany.
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A proteomic approach to analyze salt-responsive proteins in rice leaf sheath.
Fida Mohammad Abbasi;Setsuko Komatsu.
Genome-wide identification of the rice calcium-dependent protein kinase and its closely related kinase gene families: comprehensive analysis of the CDPKs gene family in rice
Takayuki Asano;Naoki Tanaka;Guangxiao Yang;Nagao Hayashi.
Plant and Cell Physiology (2005)
Proteomic analysis of rice seedlings during cold stress
Makoto Hashimoto;Setsuko Komatsu.
A rice calcium‐dependent protein kinase OsCPK12 oppositely modulates salt‐stress tolerance and blast disease resistance
Takayuki Asano;Nagao Hayashi;Michie Kobayashi;Naohiro Aoki.
Plant Journal (2012)
Comparative proteomic study of arsenic‐induced differentially expressed proteins in rice roots reveals glutathione plays a central role during As stress
Nagib Ahsan;Dong‐Gi Lee;Iftekhar Alam;Pil Joo Kim.
Curated genome annotation of Oryza sativa ssp. japonica and comparative genome analysis with Arabidopsis thaliana
Takeshi Itoh;Takeshi Itoh;Tsuyoshi Tanaka;Roberto A. Barrero;Chisato Yamasaki.
Genome Research (2007)
Proteomic analysis of rice leaf sheath during drought stress.
Ghulam Muhammad Ali;Setsuko Komatsu.
Journal of Proteome Research (2006)
Recent developments in the application of proteomics to the analysis of plant responses to heavy metals
Nagib Ahsan;Jenny Renaut;Setsuko Komatsu.
OsCDPK13, a calcium-dependent protein kinase gene from rice, is induced by cold and gibberellin in rice leaf sheath.
Fida Abbasi;Haruko Onodera;Seiichi Toki;Hiroshi Tanaka.
Plant Molecular Biology (2004)
A Novel Rice PR10 Protein, RSOsPR10, Specifically Induced in Roots by Biotic and Abiotic Stresses, Possibly via the Jasmonic Acid Signaling Pathway
Makoto Hashimoto;Larisa Kisseleva;Shinichiro Sawa;Toshiko Furukawa.
Plant and Cell Physiology (2004)
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