Faculty Profiles - Setsuko Komatsu

写真a

Setsuko Komatsu

Research Interests

Proteomics
Crop
Environment
Molecular biology

Research Areas

Life Science / Molecular biology

Education

Meiji Pharmaceutical University Graduated

- 1980.3

Research History

Fukui University of Technology Professor

2018.4

Qualification acquired

Pharmacist

Papers

Biochemical analysis to understand the flooding tolerance of mutant soybean irradiated with gamma rays Invited Reviewed International journal

Komatsu S, Zhou T, Kono Y.

International Journal of Molecular Sciences 25 ( 1 ) 517 2024.1

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Flooding stress, which reduces plant growth and seed yield, is a serious problem for soybean. To improve the productivity of flooded soybean, flooding-tolerant soybean was produced by gamma-ray irradiation. The results suggest that the regulation of cell organization and protein degradation might be an important factor in the acquisition of flooding tolerance in soybean.
Impairment in photosynthesis induced by CAT inhibition depends on the intensity of photorespiration and peroxisomal APX expression in rice Reviewed International coauthorship International journal

Sousa RH, Carvalho FE, Daloso DM, Lima-Melo Y, Margis-Pinheiro M, Komatsu S, Silveira JA

Plant Physiol Biochem. 203 108066 2023.10

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Rice plants silenced for peroxisomal ascorbate peroxidase display higher resilience to photosynthesis under oxidative stress and photorespiratory conditions. However, the redox mechanisms underlying that intriguing response remain unknown. The hypothesis was tested that favorable effects triggered by peroxisomal APX deficiency on photosynthesis resilience under CAT inhibition are dependent on the intensity of photorespiration associated with the abundance of photosynthetic and redox proteins. The results suggest that the intensity of photorespiration and peroxisomal APX-mediated redox signaling are tightly regulated under CAT inhibition induced oxidative stress, which can modulate the photosynthetic efficiency, possibly via a coordinated regulation of protein abundance and rearrangement, ultimately triggered by crosstalk involving H2O2 levels related to CAT and APX activities in peroxisomes.
Proteomic analysis reveals salt-tolerant mechanism in soybean applied with plant-derived smoke solution Invited Reviewed International coauthorship International journal

Komatsu S, Kimura T, Rehman SU, Yamaguchi H, Hitachi K, Tsuchida K

International Journal of Molecular Sciences 24 ( 18 ) 13734 2023.9

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Salt stress of soybean is a serious problem because it reduces plant growth and seed yield. To investigate the salt-tolerant mechanism of soybean, a plant-derived smoke (PDS) solution was used. The results suggest that PDS solution improves the soybean growth by alleviating salt stress. Additionally, the regulation of energy metabolism, protein glycosylation, and cell wall construction might be an important factor for the acquisition of salt tolerance in soybean.
Subcellular proteomics to elucidate soybean response to abiotic stress Invited Reviewed International coauthorship International journal

Wang X, Komatsu S

Plants 12 ( 15 ) 2865 2023.8
Membrane proteomics to understand enhancement effects of millimeter-wave irradiation on wheat root under flooding stress Invited Reviewed International journal

Komatsu S, Hamada K, Furuya T, Nishiuchi T, Tani M

International Journal of Molecular Sciences 24 ( 10 ) 9014 2023.6

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Millimeter-wave irradiation of wheat seeds enhances the growth of roots under flooding stress, but its mechanism is not clearly understood. To understand the role of millimeter-wave irradiation on root-growth enhancement, membrane proteomics was performed. The results suggest that millimeter-wave irradiation improves the root growth of wheat via the transitions of proteins in the plasma membrane, endoplasmic reticulum, vacuolar, and mitochondria.
Biochemical and enzymatic analyses to understand the accumulation of γ-aminobutyric acid in wheat grown under flooding stress Invited Reviewed International journal

Komatsu S, Nishiyama N, Diniyah A.

Oxygen 3 ( 1 ) 120 - 132 2023.4

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Flooding induces low-oxygen stress, which reduces plant growth. The activity of the γ-aminobutyric acid (GABA) shunt is crucial for plant stress adaptation, in which it acts by changing cytosolic pH, limiting reactive oxygen species production, regulating nitrogen metabolism, and bypassing steps in the tricarboxylic acid cycle. GABA accumulates under osmotic stress as well as flooding stress. To clarify the dynamic roles of GABA accumulation in wheat under flooding stress, biochemical and enzymatic analyses were performed using a plant-derived smoke solution (PDSS), which rescued wheat growth from flooding stress. The results suggest that flooding stress increases GABA content along with the increase and decrease of glutamate decarboxylase and succinyl semialdehyde dehydrogenase, respectively. Additionally, PDSS increased GABA content along with the increase of glutamate decarboxylase abundance at the initial stage of application.
Callus Induction and plant regeneration from Carum copticum and assessment of antioxidant responses and phytochemical profiling by in vitro salinity stress Invited Reviewed International coauthorship International journal

Razavizadeh R, Adabavazeh F, Chermahini MR, Komatsu S.

Horticulturae 9 22 2023.1

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Higher production of secondary metabolites is one of the adaptive responses to alleviate the impact of environmental injuries. In the present investigation, the production of these metabolites with medicinal importance induced by salinity in Carum copticum was investigated. To develop a better way for the production of medicinal substances, callogenesis and plant regeneration were analyzed, and seeds, calli, and/or regenerated seedlings were exposed to different concentrations of NaCl under in vitro culture conditions. The maximum frequency of callus induction was obtained on a medium supplemented with 0.25 mg L􀀀1 2, 4-dichlorophenoxyacetic (2,4-D) and 1 mg L􀀀1 benzyl amino purine (BAP) from stem explants. Plant regeneration with multiple shoots was obtained from pieces of callus transferred to MS medium fortified with 0.25 mg L􀀀1 2,4-D and 1.5 mg L􀀀1 BAP. Four weeks after treatment, salinity induced a substantial increase in the accumulation of reducing sugars and proline as compatible osmolytes and the activity of antioxidant enzymes. Total phenolics and anthocyanin significantly increased in all samples with increasing NaCl concentrations; however, the regenerated seedlings showed a reduction in these compounds at severe NaCl concentration compared to the control. Moreover, NaCl enhanced thymol, -terpinene, sabinene, and myrcene in the seedlings and calli, as well as carvacrol, limonene, and _-terpinene in the regenerated seedlings. These results suggest that salinity has a marked impact on improving the content of antioxidant metabolites and essential oils in C. copticum, whose callus might be the most salt tolerant in all tested samples.
Bio-synthesized nanoflowers and chemically synthesized nanowires zinc-oxide induced changes in the redox and protein folding in soybean seedlings: a proteomic analysis Reviewed International coauthorship International journal

Mustafa G, Miyagawa S, Hasan M, Yamaguchi, H, Hitachi K, Tsuchida K, Komatsu S.

J Plant Growth Regul on line 1 2022.9

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Plant-mediated synthesis methods of nanoflowers (NFs) open a new epoch of extensive application, economical, exceedingly stable, and reproducible synthesis of zinc oxide (ZnO) NFs. To study the effects of bio-synthesized (BS) NFs and chemically synthesized nanowires (CS NWs) ZnO on soybean, a gel-free/ label-free proteomic technique was used. Length and weight of root including hypocotyl were enhanced by 10 ppm BS NFs and CS NWs ZnO. Oppositely changed proteins between BS NFs and CS NWs ZnO were related to hormone metabolism, protein folding, and redox metabolism. Abundance of heat shock protein 70 (HSP70) increased in BS NFs ZnO while did not change in CS NWs ZnO. Abundance of ascorbate peroxidase and peroxiredoxin increased and decreased, respectively, in BS NFs ZnO. Ascorbic acid and hydrogen peroxide increased, respectively, with BS NFs and CS NWs ZnO. These results suggest that BS NFs ZnO might improve the soybean growth by increasing the protein folding due to accumulation of HSP70 and redox metabolism through detoxification of hydrogen peroxide. On the other hand, CS NWs ZnO treated soybean experienced loss of protein folding and increased oxidative stress.
Proteomic and biochemical approaches elucidat e the role of millimeter-wave irradiation in wheat growth under flooding stress Invited Reviewed International journal

Komatsu S, Tsutsui Y, Furuya T, Yamaguchi H, Hitachi K, Tsuchida K, Tani M.

Int J Mol Sci 23 ( 18 ) 10360 2022.9

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Flooding impairs wheat growth and considerably affects yield productivity worldwide. On the other hand, irradiation with millimeter waves enhanced the growth of chickpea and soybean under flooding stress. In the current work, millimeter-wave irradiation notably enhanced wheat growth, even under flooding stress. To explore the protective mechanisms of millimeter-wave irradiation on wheat under flooding, quantitative proteomics was performed. According to functional categorization, proteins whose abundances were changed significantly with and without irradiation under flooding stress were correlated to glycolysis, reactive-oxygen species scavenging, cell organization, and hormonal metabolism. Immunoblot analysis confirmed that fructose-bisphosphate aldolase and _ tubulin accumulated in root and leaf under flooding; however, even in such condition, their accumulations were recovered to the control level in irradiated wheat. The abundance of ascorbate peroxidase increased in leaf under flooding and recovered to the control level in irradiated wheat. Because the abundance of auxin-related proteins changed with millimeter-wave irradiation, auxin was applied to wheat under flooding, resulting in the application of auxin improving its growth, even in such condition. These results suggest that millimeter-wave irradiation on wheat seeds improves the recovery of plant growth from flooding via the regulation of glycolysis, reactive-oxygen species scavenging, and cell organization. Additionally, millimeter-wave irradiation could promote tolerance against flooding through the regulation of auxin contents in wheat.
Morphological and proteomic analyses of soybean seedling interaction mechanism affected by fiber crosslinked with zinc-oxide nanoparticles. Invited Reviewed International journal

Komatsu S, Murata K, Yakeishi S, Shimada K, Yamaguchi H, Hitachi K, Tsuchida K, Obi R, Akita S, Fukuda R.

Int J Mol Sci 23 ( 13 ) 7415 2022.7

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Nanoparticles (NPs) enhance soybean growth; however, their precise mechanism is not clearly understood. To develop a more effective method using NPs for the enhancement of soybean growth, fiber crosslinked with zinc oxide (ZnO) NPs was prepared. The solution of ZnO NPs with 200 nm promoted soybean growth at the concentration of 10 ppm, while fibers crosslinked with ZnO NPs promoted growth at a 1 ppm concentration. Soybeans grown on fiber cross-linked with ZnO NPs had higher Zn content in their roots than those grown in ZnO NPs solution. To study the positive mechanism of fiber crosslinked with ZnO NPs on soybean growth, a proteomic technique was used. Proteins categorized in photosynthesis and secondary metabolism accumulated more in soybeans grown on fiber crosslinked with ZnO NPs than in those grown in ZnO NPs solution. Furthermore, significantly accumulated proteins, which were NADPH oxidoreductase and tubulins, were confirmed using immunoblot analysis. The abundance of NADPH oxidoreductase increased in soybean by ZnO NPs application. These results suggest that fiber crosslinked with ZnO NPs enhances soybean growth through the increase of photosynthesis and secondary metabolism. Additionally, the accumulation of NADPH oxidoreductase might relate to the effect of auxin with fiber crosslinked with ZnO NPs on soybean growth.
Morphological, biochemical, and proteomic analyses to understand the promotive effects of plant-derived smoke solution on wheat growth under flooding stress Invited Reviewed International coauthorship International journal

Komatsu S, Yamaguchi H, Hitachi K, Tsuchida K, Rehman SU, Ohno T.

Plants 11 ( 11 ) 1508 2022.6

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Wheat is an important staple food crop for one‐third of the global population; however, its growth is reduced by flooding. On the other hand, a plant‐derived smoke solution enhances plant growth; however, its mechanism is not fully understood. To reveal the effects of the plant‐derived smoke solution on wheat under flooding, morphological, biochemical, and proteomic analyses were conducted. The plant‐derived smoke solution improved wheat‐leaf growth, even under flooding. According to the functional categorization of proteomic results, oppositely changed proteins were correlated with photosynthesis, glycolysis, biotic stress, and amino‐acid metabolism with or without the plant‐derived smoke solution under flooding. Immunoblot analysis confirmed that RuBisCO activase and RuBisCO large/small subunits, which decreased under flooding, were recovered by the application of the plant‐derived smoke solution. Furthermore, the contents of chlorophylls a and b significantly decreased by flooding stress; however, they were recovered by the application of the plant‐derived smoke solution. In glycolysis, fructose‐bisphosphate aldolase and glyceraldehyde‐3‐phosphate dehydrogenase decreased with the application of the plant‐derived smoke solution under flooding as compared with flooding alone. Additionally, glutamine, glutamic acid, aspartic acid, and serine decreased under flooding; however, they were recovered by the plant derived smoke solution. These results suggest that the application of the plant‐derived smoke solution improves the recovery of wheat growth through the regulation of photosynthesis and glycolysis even under flooding conditions. Furthermore, the plant‐derived smoke solution might promote wheat tolerance against flooding stress through the regulation of amino‐acid metabolism.
Proteomic, biochemical, and morphological analyses of the effect of silver nanoparticles mixed with organic and inorganic chemicals on wheat growth Invited Reviewed International journal

Komatsu S, Yamaguchi H, Hitachi K, Tsuchida K.

Cells 11 ( 9 ) 1579 2022.5

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Wheat is vulnerable to numerous diseases; on the other hand, silver nanoparticles (AgNPs) exhibit a sterilizing action. To understand the combined effects of AgNPs with nicotinate and potassium nitrate (KNO3) for plant growth and sterilization, a gel- and label-free proteomics was performed. Root weight was promoted by the treatment of AgNPs mixed with nicotinate and KNO3. From a total of 5557 detected proteins, 90 proteins were changed by the mixture of AgNPs, nicotinate, and KNO3; among them, 25 and 65 proteins increased and decreased, respectively. The changed proteins were mainly associated with redox and biotic stress in the functional categorization. By immunoblot analysis, the abundance of glutathione reductase/peroxiredoxin and pathogen-related protein three significantly decreased with the mixture. Furthermore, from the changed proteins, the abundance of starch synthase and lipoxygenase significantly increased and decreased, respectively. Through biochemical analysis, the starch contents increased with the mixture. The application of esculetin, which is a lipoxygenase inhibitor, increased the weight and length of the root. These results suggest that the AgNPs mixed with nicotinate and KNO3 cause positive effects on wheat seedlings by regulating pathogen-related protein and reactive-oxygen species scavenging. Furthermore, increasing starch and decreasing lipoxygenase might improve wheat growth.
Subcellular proteomics to understand promotive effect of plant-derived smoke solution on soybean root Invited Reviewed International coauthorship International journal

Murashita Y, Nishiuchi T, Rehman SU, Komatsu S

Proteomes 9 39 2021.10

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Plant-derived smoke solution enhances soybean root growth; however, its mechanism is not clearly understood. Subcellular proteomics techniques were used for underlying roles of plant-derived smoke solution on soybean root growth. The results indicate that plant-derived smoke solution enhanced soybean root growth through the transcriptional promotion with RNA polymerase II expression and the energy production with ATPase accumulation.
Proteomic and biological analyses reveal the effect on growth under flooding stress of chickpea irradiated with millimeter waves Reviewed International coauthorship International journal

Komatsu S, Maruyama J, Furuya T, Yin X, Yamaguchi H, Hitachi K, Miyashita N, Tsuchida K, Tani M

J Proteome Res 20 4718 - 4727 2021.10

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Millimeter wave irradiation has influences on organisms, and it improves the growth of plants such as soybean. To reveal the dynamic effects of millimeter-wave irradiation on chickpea under flooding, gel- and label-free proteomic analysis was conducted. The findings suggest that irradiation with millimeter waves on chickpea seeds improves the recovery of plant growth through regulation of photosynthesis in leaves and fermentation in roots. Furthermore, millimeter-wave irradiation might promote chickpea tolerance under flooding via the regulation of cell death.
Proteomic and biochemical analyses of the mechanism of tolerance in mutant soybean responding to flooding stress Invited Reviewed International journal

Komatsu S, Yamaguchi H, Hitachi K, Tsuchida K, Kono Y, Nishimura M

Int J Mol Sci 22 9046 2021.8

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To investigate the mechanism of flooding tolerance of soybean, flooding-tolerant mutants derived from gamma-ray irradiated soybean were crossed with parent cultivar Enrei for removal of other factors besides the genes related to flooding tolerance in primary generated mutant soybean. The results suggest that the regulation of cell death through the fermentation system and glycoprotein folding might be an important factor for the acquisition of flooding tolerance in mutant soybean.
An information-theoretic model suggesting genetic regulatory system degradation under climate change Invited Reviewed International coauthorship International journal

Sakata K, Saito T, Ohyanagi H, Katam R, Komatsu S

Physics Open 6 100062 2021.4

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Does climate change influence on genetic regulatory systems? Previous studies on genetic regulatory systems have focused on specific systems and environmental stimuli. We elucidate a causal relationship for a ‘minimal’ genetic regulatory system in environmental changes. We manifest a mathematical framework for designing genetic modification strategy to mitigate the effect of the climate change on genetic regulatory systems. This model suggests genetic regulatory system degradation in the progression of climatic change
Osmotic stress in banana is relieved by exogenous nitric oxide Reviewed International coauthorship International journal

Mohd Amnan MA, Pua TL, Lau SE, Tan BC, Yamaguchi H, Hitachi K, Tsuchida K, Komatsu S

PeerJ 9 10879 2021.4

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Drought is one of the severe environmental stresses threatening agriculture around the globe. Nitric oxide plays diverse roles in plant growth and defensive responses. In this study, ptoteomic approach was used to determine the effects of sodium nitroprusside on polyethylene glycol-induced osmotic stress in banana roots. The results suggest that the nitric oxide-induced osmotic stress tolerance could be associated with improved carbohydrate and energy metabolism capability in higher plants.
Proteomic approaches to uncover salt stress response mechanisms in crops. Invited Reviewed International coauthorship International journal

Kausar R, Komatsu S.

Int J Mol Sci 24 518 2023.1

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Salt stress is an unfavorable outcome of global climate change, adversely affecting crop growth and yield. It is the second-biggest abiotic factor damaging the morphological, physiobiochemical, and molecular processes during seed germination and plant development. Salt responses include modulation of hormonal biosynthesis, ionic homeostasis, the antioxidant defense system, and osmoprotectants to mitigate salt stress. Plants trigger salt-responsive genes, proteins, and metabolites to cope with the damaging effects of a high salt concentration. Enhancing salt tolerance among crop plants is direly needed for sustainable global agriculture. Novel protein markers, which are used for crop improvement against salt stress, are identified using proteomic techniques. As compared to single-technique approaches, the integration of genomic tools and exogenously applied chemicals offers great potential in addressing salt-stress-induced challenges. The interplay of salt-responsive proteins and genes is the missing key of salt tolerance. The development of salt-tolerant crop varieties can be achieved by integrated approaches encompassing proteomics, metabolomics, genomics, and genome-editing tools. In this review, the current information about the morphological, physiological, and molecular mechanisms of salt response/tolerance in crops is summarized. The significance of proteomic approaches to improve salt tolerance in various crops is highlighted, and an integrated omics approach to achieve global food security is discussed. Novel proteins that respond to salt stress are potential candidates for future breeding of salt tolerance.
Crop proteomics under abiotic stress: from data to insights Invited Reviewed International coauthorship International journal

Kausar R, Wang X, Komatsu S.

Plants 11 ( 21 ) 2877 2022.10

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Food security is a major challenge in the present world due to erratic weather and climatic changes. Environmental stress negatively affects plant growth and development which leads to reduced crop yields. Technological advancements have caused remarkable improvements in crop-breeding programs. Proteins have an indispensable role in developing stress resilience and tolerance in crops. Genomic and biotechnological advancements have made the process of crop improvement more accurate and targeted. Proteomic studies provide the information required for such targeted approaches. The crosstalk among cellular components is being analyzed by subcellular proteomics. Additionally, the functional diversity of proteins is being unraveled by post-translational modifications during abiotic stress. The exploration of precise cellular responses and the networking among different cellular organelles help in the prediction of signaling pathways and protein–protein interactions. High-throughput mass-spectrometry-based protein studies are now possible due to incremental advancements in mass-spectrometry techniques, sample protocols, and bioinformatic tools as well as the increasing availability of plant genome sequence information for multiple species. In this review, the key role of proteomic analysis in identifying the abiotic-stress-responsive mechanisms in various crops was summarized. The development and availability of advanced computational tools were discussed in detail. The highly variable protein responses among different crops have provided a wide avenue for molecular-marker-assisted genetic buildup studies to develop smart, high-yielding, and stress-tolerant varieties to cope with food-security challenges.
The role of phytohormones in plant response to flooding Invited Reviewed International coauthorship International journal

Wang X, Komatsu S.

Int J Mol Sci 23 ( 12 ) 6383 2022.7

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Climatic variations influence the morphological, physiological, biological, and biochemical states of plants. Plant responses to abiotic stress include biochemical adjustments, regulation of proteins, molecular mechanisms, and alteration of post‐translational modifications, as well as signal transduction. Among the various abiotic stresses, flooding stress adversely affects the growth of plants, including various economically important crops. Biochemical and biological techniques, including proteomic techniques, provide a thorough understanding of the molecular mechanisms during flooding conditions. In particular, plants can cope with flooding conditions by embracing an orchestrated set of morphological adaptations and physiological adjustments that are regulated by an elaborate hormonal signaling network. With the help of these findings, the main objective is to identify plant responses to flooding and utilize that information for the development of flood‐tolerant plants. This review provides an insight into the role of phytohormones in plant response mechanisms to flooding stress, as well as different mitigation strategies that can be successfully administered to improve plant growth during stress exposure. Ultimately, this review will expedite marker assisted genetic enhancement studies in crops for developing high‐yield lines or varieties with flood tolerance.
Proteomic study to understand promotive effects of plant-derived smoke on soybean root growth under flooding stress Reviewed International coauthorship

Otori M, Murashita Y, Regman S, Komatsu S.

Plant Mol. Biol Rep. 39 24 - 33 2021.3
Proteomic analysis reveals the effects of melatonin on soybean root tips under flooding stress Reviewed

Wang X, Li F, Chen Z, Yang B, Komatsu S, Zhou S.

J Proteomics 230 104064 2021.3
Quantitative proteomics reveals dual effects of calcium on radicle protrusion in soybean Reviewed

Wang X, Hu H, Li F, Yang B, Komatsu S, Zhou S.

J Proteomics 230 103999 2021.1
Proteomics analysis of plasma membrane fractions of the root, leaf, and flower of rice Reviewed

Iwasaki Y, Itoh T, Hagi Y, Matsuta S, Nishiyama A, Chaya G, Kobayashi Y, Miura K, Komatsu S.

Int J Mol Sci221 21 ( 19 ) 6988 2020.9
A comparative proteomic analysis of engineered and bio synthesized silver nanoparticles on soybean seedlings Reviewed

Mustafa G, Hasan M, Yamaguchi H, Hitachi K, Tsuchida K, Komatsu S

J Proteomics 224 103833 2020.7
An information-theoretic model for managing predator?prey ecosystems facing climate changes Invited Reviewed

Sakata K, Katam R, Saito T, Ohyanagi H, Komatsu S

International Journal on Advances in Life Sciences 12 10 - 15 2020.6
Chitosan effects on the elevation of essential oils and antioxidant activity of Carum copticum L. seedlings and callus cultures under in vitro salt stress Reviewed

Razavizadeh R, Adabavazeh F .U344, Komatsu S.

Journal of Plant Biochemistry and Biotechnology. 29 ( 3 ) 473 - 483 2020.6
Plant-derived smoke enhances plant growth through ornithine-synthesis pathway and ubiquitin-proteasome pathway in soybean Reviewed

Zhong Z, Kobayashi T, Zhu W, Imai H. Zhao R, Ohno T, Rehman SU, Uemura M, Tian J, Komatsu S.

J Proteomics 221 103781 2020.6
Proteomic analysis of irradiation with millimeter waves on soybean growth under flooding conditions Reviewed

Zhong Z, Furuya T, Ueno K, Yamaguchi H, Hitachi K, Tsuchida K, Tani M, Tian J, Komatsu S

Int J Mol Sci. 21 ( 2 ) 486 2020.4
Comparative proteomic analysis of wild-type physcomitrella patens and an OPDA-deficient physcomitrella patens mutant with disrupted PpAOS1 and PpAOS2 genes after wounding Reviewed

Luo W, Komatsu S, Abe T, Matsuura H, Takahashi K.

Int J Mol Sci. 21 ( 4 ) 1417 2020.4
Comparative analysis of the effect of inorganic and organic chemicals with silver nanoparticles on soybean under flooding stress Reviewed

Hashimoto T, Mustafa G, Nishiuchi T, Komatsu S.

Int J Mol Sci. 21 ( 4 ) 1300 2020.4
Phosphoproteomics reveals the biosynthesis of secondary metabolites in Catharanthus roseus under ultraviolet-b radiation. Reviewed

Zhong Z, Liu S, Zhu W, Ou Y, Yamaguchi H, Hitachi K, Tsuchida K, Tian J, Komatsu S.

J Proteome Res. 18 3328 - 2241 2019.9
Integrative omics of Lonicera japonica Thunb. Flower development unravels molecular changes regulating secondary metabolites. Reviewed

Yang B, Zhong Z, Wang T, Ou Y, Tian J, Komatsu S, Zhang L.

J Proteomics 28 103470 2019.9
Identification of a gene encoding polygalacturonase expressed specifically in short styles in distylous common buckwheat (Fagopyrum esculentum). Reviewed

Takeshima R, Nishio T, Komatsu S, Kurauchi N, Matsui K.

Heredity 123 492 - 502 2019.4
The quest for missing proteins in rice. Reviewed

Rahiminejad M, Ledari MT, Mirzaei M, Ghorbanzadeh Z, Kavousi K, Ghaffari MR, Haynes PA, Komatsu S, Salekdeh GH

Mol. Plant. 12 4 - 6 2019.4
Organ-specific analysis of morus alba using a gel-free/label-free proteomic technique. Reviewed

Zhu W, Zhong Z, Liu S, Yang B, Komatsu S, Ge Z, Tian J.

Int J Mol Sci.. 20 2 2019.4
Proteomic analysis of the effect of inorganic and organic chemicals on silver nanoparticles in wheat. Reviewed

Jhanzab HM, Razzaq A, Bibi Y, Yasmeen F, Yamaguchi H, Hitachi K, Tsuchida K, Komatsu S.

Int J Mol Sci. 20 4 2019.4
Molecular responses of maize shoot to plant derived smoke solution. Reviewed

Aslam MM, Rehman SU, Khatoon A, Muhammad Jamil, Yamaguchi H, Hitachi K, Tsuchida K, Li X, Sunohara Y, Matsumoto H, Komatsu S.

Int J Mol Sci. 20 1319 2019.4
Adaptive responses and callogenesis of Thymu vulgaris under in vitro drought stress. Reviewed

Razavizadeh R, Farahzaduan F, Komatsu S.

In Vitro Cellular & Developmental Biology 55 342 - 257 2019.4
Early changes in S-nitrosoproteome in soybean seedling under flooding stress. Reviewed

Hashiguchi A, Komatsu S

Plant Mol Biol Rep 2019.3
Differences in fennel seed responses to drought stress at the seed formation stage in sensitive and tolerant genotypes. Reviewed

Khodadadi E, Hashiguchi A, Ali Fakheri B, Aharizad S, Emamjomeh A, Norouzi M, Komatsu S.

J Plant Biochem Biotech. 2019.3
A resistant cowpea (Vigna unguiculata [L.] Walp.) genotype became susceptible to cowpea severe mosaic virus (CPSMV) after exposure to salt stress. Reviewed

Varela ALN, Oliveira JTA, Komatsu S, Silva RGG, Martins TF, Souza PFN, Lobo AKM, Vasconcelos IM, Carvalho FEL, Silveira JAG.

J Proteomics. 2019.3
Impairment of peroxisomal APX and CAT activities increases protection of photosynthesis. Reviewed

Sousa RHV, Carvalho FEL, Lima-Melo Y, Alencar VTCB, Daloso DM, Margis-Pinheiro M, Komatsu S, Silveira JAG.

J Exp Bot. 2019.3
Proteomic and physiological approaches reveal new insights for uncover the role of rice thylakoidal APX in response to drought stress. Reviewed

Cunha JR, Carvalho FEL, Lima-Neto MC, Jardim-Messeder D, Cerqueira JVA, Martins MO, Fontenele AV, Margis-Pinheiro M, Komatsu S, Silveira JAG.

J Proteomics. 192 125 - 136 2019.1
Proteomic analysis of temperature dependency of buckwheat seed dormancy and quality degradation. Reviewed

Hashiguchi A, Yoshioka H, Komatsu S.

Theor Exp Plant Physiol. 30 77 - 88 2018.5
Quantitative proteomics analysis of shoot in stress tolerant wheat varieties on copper nanoparticle exposure. Reviewed

Yasmeen F, Raja NI, Ilyas N, Komatsu S.

Plant Mol Biology Reporter. 36 326 - 340 2018.5
Proteomic analysis of the effect of plant-derived smoke on soybean during recovery from flooding stress. Reviewed

Li X, Rehman SU, Yamaguchi H, Hitachi K, Tsuchida K, Yamaguchi T, Sunohara Y, Matsumoto H, Komatsu S.

J Proteomics. 181 238 - 248 2018.4
An integrated approach of proteomics and computational genetic modification effectiveness analysis to uncover the mechanisms of flood tolerance in soybeans. Reviewed

Wang X, Sakata K, Komatsu S.

Int J Mol Sci. 19 1301 2018.4
Characterization of PP2A-A3 mRNA expression and growth patterns in Arabidopsis thaliana under drought stress and abscisic acid. Reviewed

Razavizadeh R, Komatsu S.

Physiol Mol Biol Plants. 24 563 - 575 2018.4
Changes in essential oil and physiological parameters of callus and seedling of Carum cipticum L. under in vitro drought stress. Reviewed

Razavizadeh R, Komatsu S.

J Food Measurement and Characterization. 12 1581 - 1592 2018.4
Label-free proteomic analysis to characterize ginger from China and Ghana. Reviewed

Yin X, Wang SL, Alolga RN, Mais E, Li P, Yang P, Komatsu S, Qi LW.

Food Chem. 249 1 - 7 2018.4
Proteomic analysis of the promotive effect of plant-derived smoke on plant growth of chickpea. Reviewed

Rehman A, Rehman SU, Khatoon A, Qasim M, Itoh T, Iwasaki Y, Wang X, Sunohara Y, Matsumoto H, Komatsu S.

J Proteomics. 176 56 - 70 2018.4
Protein profiles underlying the effect of plant growth-promoting Rhizobacteria on canola under osmotic stress. Reviewed

Kazemi Oskuei B, Bandehagh A, Sarikhami MR, Komatsu S.

J Plant Growth Regul. 37 560 - 574 2018.4
Histopathogy of red crown rot of soybean. Reviewed

Yamamoto R, Nakagawa A, Shimada S, Komatsu A.

J Gen Plant Pathol. 83 23 - 32 2017
Transcriptomic analysis reveals the flooding tolerant mechanism in flooding tolerant line and abscisic acid treated soybean. Reviewed

Yin X, Hiraga S, Hajika M, Nishimura M, Komatsu S.

Plant Mol Biol. 93 479 - 496 2017
Transcriptomic and proteomic analyses of leaves from Clematis terniflora DC. under high level of ultraviolet-B irradiation followed by dark treatment. Reviewed

Yang B, Guan Q, Tian J, Komatsu S.

J Proteomics. 150 323 - 340 2017
Proteomic and physiological analyses of wheat seeds exposed to copper and iron nanoparticles. Reviewed

Yasmeen F, Raja NI, Razzaq A, Komatsu S

Biochim Biophys Acta. 1865 28 - 42 2017
Mung bean (Vigna radiata (L.)) coat extract modulates macrophage functions to enhance antigen presentation: A proteomic study. Reviewed

Hashiguchi A, Hitachi K, Zhu W, Tian J, Tsuchida K, Komatsu S.

J Proteomics. 161 26 - 37 2017
Data for transcriptomic and proteomic analyses of leaves from Clematis terniflora DC. under binary stress. Reviewed

Yang B, Guan Q, Tian J, Komatsu S.

Data Brief. 12 138 - 142 2017
Organ-specific proteomics of soybean seedlings under flooding and drought stresses. Reviewed

Wang X, Khodadadi E, Fakheri B, Komatsu S.

J Proteomics. 162 62 - 72 2017
Gel-free/label-free proteomic, photosynthetic, and biochemical analysis of cowpea (Vigna unguiculata [L.] Walp.) resistance against Cowpea severe mosaic virus (CPSMV). Reviewed

Varela ALN, Komatsu S, Wang X, Silva RGG, Souza PFN, Lobo AKM, Vasconcelos IM, Silveira JAG, Oliveira JTA.

J Proteomics. 163 76 - 91 2017
Integration of gel-based and gel-free proteomic data for functional analysis of proteins through Soybean Proteome Database. Reviewed

Komatsu S, Wang X, Yin X, Nanjo Y, Ohyanagi H, Sakata K.

J Proteomics. 163 52 - 66 2017
Proteomics and metabolomics-driven pathway reconstruction of mung bean for nutraceutical evaluation. Reviewed

Hashiguchi A, Zhu W, Tian J, Komatsu S.

Biochim Biophys Acta. 1865 1057 - 1066 2017
Proteomic analysis of soybean seedling leaf under waterlogging stress in a time-dependent manner. Reviewed

Kazemi Oskuei B, Yin X, Hashiguchi A, Bandehagh A, Komatsu S.

Biochim Biophys Acta. 1865 1167 - 1177 2017
Proteomic analysis of calcium effects on soybean root tip　under flooding and drought stresses. Reviewed

Wang X, Komatsu S.

Plant Cell Physiol. 58 1405 - 1420 2017
Metabolic profiles of flooding-tolerant mechanism in early-stage soybean responding to initial stress. Reviewed

Wang X, Zhu W, Hashiguchi A, Nishimura M, Tian J, Komatsu S.

Plant Mol Biol. 94 669 - 685 2017
Datasets of mung bean proteins and metabolites from four different cultivars. Reviewed

Hashiguchi A, Zhu W, Tian J, Komatsu S.

Data Brief. 13 703 - 706 2017
Leaf proteomics of drought-sensitive and -tolerant genotypes of fennel. Reviewed

Khodadadi E, Fakheri BA, Aharizad S, Emamjomeh A, Norouzi M, Komatsu S.

Biochim Biophys Acta. 1865 1433 - 1444 2017
Organ-specific proteomic analysis of early vegetative stage soybean. Reviewed

Khan MN, Komatsu S.

Protein Pept Lett. 24 897 - 908 2017
Proteomic analysis of soybean root exposed to varying sizes of silver nanoparticles under flooding stress. Reviewed

Mustafa G, Sakata K, Komatsu S.

J Proteomics. 148 113 - 125 2016
Characterization of post-flooding recovery-responsive enzymes in soybean root and hypocotyl. Reviewed

Khan MN, Komatsu S.

J. Plant Biol. 59 478 - 487 2016
Overexpression of RSOsPR10, a root-specific rice PR10 gene, confers tolerance against drought stress in rice and drought and salt stress in bentgrass. Reviewed

Takeuchi K, Hasegawa H, Gyohda A, Komatsu S, Okamoto T, Okada K, Terakawa T, Koshiba T.

Plant Cell Tiss Organ Cult. 127 35 - 46 2016
Characterization of S-adenosylmethionine synthetases in soybean under flooding and drought stress. Reviewed

Wang X, Oh MW, Komatsu S.

Biol Plant. 60 269 - 278 2016
Effects of anti-auxins on secondary aerencyma a formation in flooded soybean hypocotyls. Reviewed

Shimamura S, Nishimura T, Koshiba T, Yamamoto R, Hiraga S, Nakamura T, Komatsu S.

Plant Prod Sci. 19 154 - 160 2016
Response and defense mechanisms of Taxus chinensis leaves under UV-A radiation are revealed using comparative proteomics and metabolomics analyses. Reviewed

Zheng W, Komatsu S, Zhu W, Zhang L, Li X, Cui L, Tian J.

Plant Cell Physiol. 57 1839 - 1853 2016
Gel-free/label-free proteomic analysis of root tip of soybean over time under flooding and drought stresses. Reviewed

Wang X, Oh M, Sakata K, Komatsu S.

J Proteomics. 130 42 - 55 2016
Insights into the proteomic response of soybean towards Al(2)O(3), ZnO, and Ag nanoparticles stress. Reviewed

Hossain Z, Mustafa G, Sakata K, Komatsu S.

J Hazard Mater. 304 291 - 305 2016
Jasmonic acid induced protein response to biophoton emissions and flooding stress in soybean. Reviewed

Kamal AH, Komatsu S.

J Proteomics. 133 33 - 47 2016
Proteomic analysis of Lonicera japonica Thunb. immature flower buds using combinatorial peptide ligand libraries and polyethylene glycol fractionation. Reviewed

Zhu W, Xu X, Tian J, Zhang L, Komatsu S.

J Proteome Res. 15 166 - 181 2016
Analyses of the molecular mechanisms associated with silk production in silkworm by iTRAQ-Based Proteomics and RNA-Sequencing-Based Transcriptomics. Reviewed

Wang S, You Z, Feng M, Che J, Zhang Y, Qian Q, Komatsu S, Zhong B.

J Proteome Res 15 15 - 28 2016
Gel-free/label-free proteomic analysis of developing rice grains under heat stress. Reviewed

Timabud T, Yin X, Pongdontri P, Komatsu S.

J Proteomics. 33 1 - 19 2016
Proteins involved in biophoton emission and flooding-stress responses in soybean under light and dark conditions. Reviewed

Kamal AH, Komatsu S.

Mol Biol Rep. 43 73 - 89 2016
PlantPReS: A database for plant proteome response to stress. Reviewed

Mousavi SA, Pouya FM, Ghaffari MR, Mirzaei M, Ghaffari A, Alikhani M, Ghareyazie M, Komatsu S, Haynes PA, Salekdeh GH.

J Proteomics. 143 69 - 72 2016
Quantitative proteomic analysis of post-flooding recovery in soybean root exposed to aluminum oxide nanoparticles. Reviewed

Yasmeen F, Raja NI, Mustafa G, Sakata K, Komatsu S.

J Proteomics. 143 136 - 150 2016
Quantitative proteomics reveals the flooding-tolerance mechanism in mutant and abscisic acid-treated soybean. Reviewed

Yin X, Nishimura M, Hajika M, Komatsu S.

J Proteome Res. 15 2008 - 2025 2016
Comprehensive proteomic analysis of canola leaf inoculated with a plant growth-promoting bacterium, Pseudomonas fluorescens, under salt stress. Reviewed

Banaei-Asl F, Farajzadeh D, Bandehagh A, Komatsu S.

Biochim Biophys Acta. 186 1222 - 1236 2016
Gel-free/label-free proteomic analysis of endoplasmic reticulum proteins in soybean root tips under flooding and drought stresses. Reviewed

Wang X, Komatsu S.

J Proteome Res. 15 2211 - 2227 2016
Nuclear proteomics reveals the role of protein synthesis and chromatin structure in root tip of soybean during the initial stage of flooding stress. Reviewed

Yin X, Komatsu S.

J Proteome Res. 15 2283 - 2298 2016
Proteomic analysis of soybean root including hypocotyl during recovery from drought stress. Reviewed

Khan MN, Komatsu S.

J Proteomics. 144 39 - 50 2016
Proteomic and metabolomic analyses of leaf from Clematis terniflora DC. exposed to high-level ultraviolet-B irradiation with dark treatment. Reviewed

Yang B, Wang X, Gao C, Chen M, Guan Q, Tian J, Komatsu S.

J Proteome Res. 15 2643 - 2657 2016
Insights into the response of soybean mitochondria proteins to various sizes of aluminum oxide nanoparticles under flooding stress. Reviewed

Mustafa G, Komatsu S.

J Proteome Res. 15 4464 - 4475 2016
Gel-free/label-free proteomic analysis of wheat shoot in stress tolerant varieties under iron nanoparticles exposure. Reviewed

Yasmeen F, Raja NI, Razzaq A, Komatsu S

Biochim Biophys Acta. 1864 1586 - 1598 2016
Proteomics of Physcomitrella patens protonemata subjected to treatment with 12-oxo-phytodienoic acid. Reviewed

Luo W, Nanjo Y, Komatsu S, Matsuura H, Takahashi K

Biosci Biotechnol Biochem. 80 2357 - 2364 2016
Loss of variation of state detected in soybean metabolic and human myelomonocytic leukaemia cell transcriptional networks under external stimuli. Reviewed

Sakata K, Saito T, Ohyanagi H, Okumura J, Ishige K, Suzuki H, Nakamura T, Komatsu S

Sci Rep. 6 35946 - 35946 2016
Proteomic analysis of flooded soybean root exposed to aluminum oxide nanoparticles. Reviewed

Mustafa G, Sakata K, Komatsu S.

J Proteomics. 128 280 - 297 2015
Gel-free quantitative proteomic approach to identify cotyledon proteins in soybean under flooding stress. Reviewed

Kamal AH, Rashid H, Sakata K, Komatsu S.

J Proteomics. 112 1 - 13 2015
Gel-free proteomic analysis of soybean root proteins affected by calcium under flooding stress. Reviewed

Oh M, Nanjo Y, Komatsu S.

Front Plant Sci. 5 559 - 559 2015
Comparative physiology and proteomic analysis of two wheat genotypes contrasting in drought tolerance. Reviewed

Faghani E, Gharechahi J, Komatsu S, Mirzaei M, Khavarinejad RA, Najafi F, Farsad LK, Salekdeh GH.

J Proteomics. 114 1 - 15 2015
Characterization of proteins in soybean roots under flooding and drought stresses. Reviewed

Oh M, Komatsu S.

J Proteomics. 114 161 - 181 2015
Quantitative proteomics reveals the effect of protein glycosylation in soybean root under flooding stress. Reviewed

Mustafa G, Komatsu S.

Front Plant Sci., 5 627 - 627 2015
Quantitative proteomics of nuclear phosphoproteins in theroot tip of soybean during the initial stages of flooding stress. Reviewed

Yin X, Komatsu S

J Proteomics. 119 183 - 195 2015
Involvement of reactive oxygen species and mitochondrial proteins in biophoton emission in roots of soybean plants under flooding stress. Reviewed

Kamal AH, Komatsu S.

J Proteome Res. 14 2219 - 2236 2015
Proteomic analysis of soybean hypocotyl during recovery after flooding stress. Reviewed

Khan MN, Sakata K, Komatsu S.

J Proteomics. 121 15 - 27 2015
Proteomic study on the effects of silver nanoparticles on soybean under flooding stress. Reviewed

Mustafa G, Sakata K, Hossain Z, Komatsu S.

J Proteomics. 122 100 - 118 2015
Proteomic analysis of canola root inoculated with bacteria under salt stress. Reviewed

Banaei-Asl F, Bandehagh A, Uliaei ED, Farajzadeh D, Sakata K, Mustafa G, Komatsu S.

J Proteomics. 124 88 - 111 2015
Proteome analysis of watery saliva secreted by green rice leafhopper, Nephotettix cincticeps. Reviewed

Hattori M, Komatsu S, Noda H, Matsumoto Y.

PLoS One. 10 0123671 - 0123671 2015
Organ-specific analysis of mahonia using gel-free/label-free proteomic technique. Reviewed

Zhu W, Hu J, Wang X, Tian J, Komatsu S.

J Proteome Res. 14 2669 - 2685 2015
Proteomic analysis of phosphoproteins in the rice nucleus during the early stage of seed germination. Reviewed

Li M, Yin X, Sakata K, Yang P, Komatsu S.

J Proteome Res. 14 2884 - 2896 2015
The Glycine max cv. Enrei Genome for Improvement of Japanese Soybean Cultivars Reviewed

Shimomura M, Kanamori H, Komatsu S, Namiki N, Mukai Y, Kurita K, Kamatsuki K, Ikawa H, Yano R, Ishimoto M, Kaga A, Katayose Y.

Int J Genomics. 2015 358127 - 358127 2015
Data in support of comparative physiology and proteomic analysis of two wheat genotypes contrasting in drought tolerance Reviewed

Faghani E, Gharechahi J, Komatsu S, Mirzaei M, Ali Khavarinejad R, Najafi F, Karimi Farsad L, Salekdeh GH.

Data Brief. 2 26 - 28 2015
Binary stress induces an increase in indole alkaloid biosynthesis in Catharanthus roseus. Reviewed

Zhu W, Yang B, Komatsu S, Lu X, Li X, Tian J.

Front Plant Sci. 6 582 - 582 2015
Phosphoproteomics reveals the effect of ethylene in soybean root under flooding stress. Reviewed

Yin X, Sakata K, Komatsu S

J Proteome Res. 13 5618 - 5634 2014
Potential marker proteins for ozon-Induced yield reduction in rice. Reviewed

Sawada H, Komatsu S, Tamaoki M, Kohno Y.

Adv. Hort. Sci. 28 100 - 104 2014
Quantitative proteomics of the root of transgenic wheat expressing TaBWPR-1.2 genes in response to waterlogging. Reviewed

Haque E, Abe F, Mori M, Nanjo Y, Komatsu S, Oyanagi A, Kaguchi K.

Proteomes 2 485 - 500 2014
Role of abscisic acid in flooding-induced secondary aerenchyma fornation in soybean hypocotyls. Reviewed

Shimamura S, Yoshioka T, Yamamoto R, Hiraga S, Nakamura T, Shimada S, Komatsu S.

Plant Prod Sci, 17 131 - 137 2014
Identification of nuclear proteins in soybean under flooding stress using proteomic technique. Reviewed

Oh MW, Nanjo Y, Komatsu S.

Protein Pept Lett. 21 458 - 467 2014
Proteome analysis of roots of wheat seedlings under aluminum stress Reviewed

Oh MW, Roy SK, Kamal AH, Cho K, Cho SW, Park CS, Choi JS, Komatsu S, Woo SH.

Mol Biol Rep. 41 671 - 681 2014
Analysis of flooding-responsive proteins localized in the nucleus of soybean root tips. Reviewed

Komatsu S, Hiraga S, Nouri MZ.

Mol Biol Rep. 41 1127 - 1139 2014
Quantitative proteomic and transcriptomic analyses of molecular mechanisms associated with low silk production in silkworm Bombyx mori. Reviewed

Wang SH, You ZY, Ye LP, Che J, Qian Q, Nanjo Y, Komatsu S, Zhong BX.

J Proteome Res. 13 735 - 751 2014
Quantitative proteomics reveals the role of protein phosphorylation in rice embryos during early stages of germination. Reviewed

Han C, Yang P, Sakata K, Komatsu S.

J Proteome Res. 13 1766 - 1782 2014
Proteomic and metabolomics analyses of soybean root tips under flooding stress. Reviewed

Komatsu S, Nakamura T, Sugimoto Y, Sakamoto K.

Protein Pept Lett. 21 865 - 884 2014
Analysis of soybean root proteins affected by gibberellic acid treatment under flooding stress. Reviewed

Oh MW, Nanjo Y, Komatsu S.

Protein Pept Lett. 21 911 - 947 2014
Characterization of a wheat pathogenesis-related protein, TaBWPR-1.2, in seminal roots in response to waterlogging stress. Reviewed

Haque ME, Abe F, Mori M, Oyanagi A, Komatsu S, Kawaguchi K.

J Plant Physiol. 17 602 - 609 2014
Analysis of initial changes in the proteins of soybean root tip under flooding stress using gel-free and gel-based proteomic techniques. Reviewed

Yin X, Sakata K, Nanjo Y, Komatsu S.

J Proteomics. 106 1 - 16 2014
Proteomic analyses of soybean root tips during germination. Reviewed

Komatsu S, Oh MW, Jang HY, Kwon SJ, Kim HR, Ko JH, Woo SH, Nanjo Y.

Protein Pept Lett. 21 1308 - 1319 2014
Profiling of mitochondrial proteome in wheat roots. Reviewed

Kim DE, Roy SK, Kamal AH, Cho K, Kwon SJ, Cho SW, Park CS, Choi JS, Komatsu S, Lee MS, Woo SH.

Mol Biol Rep. 41 5359 - 5366 2014
Proteomic analysis of Physcomitrella patens treated with 12-oxo-phytodienoic acid, an important oxylipin in plants. Reviewed

Toshima E, Nanjo Y, Komatsu S, Abe T, Matsuura H, Takahashi K.

Biosci Biotechnol Biochem. 78 946 - 953 2014
Analyses of flooding tolerance of soybean varieties at emergence and varietal differences in their proteomes. Reviewed

Nanjo Y, Jang HY, Kim HS, Hiraga S, Woo SH, Komatsu S.

Phytochemistry. 106 25 - 36 2014
Quantitative proteomics reveals that peroxidases play key roles in post-flooding recovery in soybean roots. Reviewed

Khan MN, Sakata K, Hiraga S, Komatsu S.

J Proteome Res. 13 5812 - 5828 2014
The synthesis of cytosolic ascorbate peroxidases in germinating seeds and seedlings of soybean and their behavior under flooding stress. Reviewed

Nishizawa K, Hiraga S, Yasue H, Chiba M, Tougou M, Nanjo Y, Komatsu S.

Biosci Biotechnol Biochem. 77 2205 - 2209 2013
Effect of phosphorus levels on the protein profiles of secreted protein and root surface protein of rice. Reviewed

Shinano T, Yoshimura T, Watanabe T, Unno Y, Osaki M, Nanjo Y, Komatsu S.

J Proteome Res. 12 4748 - 4756 2013
Proteomic analysis of the seed development in Jatropha curcas: from carbon flux to the lipid accumulation. Reviewed

Liu H, Wang C, Komatsu S, He M, Liu G, Shen S.

J Proteomics. 91 23 - 40 2013
Proteomics analysis of sensitive and tolerant barley genotypes under drought stress. Reviewed

Kausar R, Arshad M, Shahzad A, Komatsu S.

Amino Acids. 44 345 - 359 2013
Proteomics analysis of root proteins in sensitive and tolerant sunflower inbred lines under drought stress. Reviewed

Ghaffari M, Toorchi M, Valizadeh M, Komatsu S.

Func Plant Biol. 40 609 - 617 2013
Proteomic analysis of the flooding tolerance mechanism in mutant soybean. Reviewed

Komatsu S, Nanjo Y, Nishimura M.

J Proteomics. 79 231 - 250 2013
The wheat chloroplastic proteome. Reviewed

Kamal AH, Cho K, Choi JS, Bae KH, Komatsu S, Uozumi N, Woo SH.

J Proteomics. 93 326 - 342 2013
Identification of indicator proteins associated with flooding injury in soybean seedlings using label-free quantitative proteomics. Reviewed

Nanjo Y, Nakamura T, Komatsu S.

J Proteome Res. 12 4785 - 4798 2013
Analysis of proteins associated with ozone stress response in soybean cultivars. Reviewed

Khan NA, Komatsu S, Sawada H, Nouri MZ, Kohno Y.

Protein Pept Lett. 20 1144 - 1152 2013
Proteomic and biochemical analyses of the cotyledon and root of flooding-stressed soybean plants. Reviewed

Komatsu S, Makino T, Yasue H.

PLoS One. 8 65301 - 65301 2013
Label-free quantitative proteomic analysis of abscisic acid effect in early-stage soybean under flooding. Reviewed

Komatsu S, Han C, Nanjo Y, Altaf-Un-Nahar M, Wang K, He D, Yang P.

J Proteome Res. 12 4769 - 4784 2013
Responses to flooding stress in soybean seedling with the alcohol dehydrogenase transgene. Reviewed

Tougou M, Hashiguchi A, Yukawa K, Nanjo Y, Hiraga S, Nakamura T, Nishizawa K, Komatsu S.

Plant Biotech. 29 301 - 306 2012
Analysis of putative aquaporin gene expression and water relations under hypoxia stress in soybean. Reviewed

Matsuo N, Nanjo Y, Tougou M, Nakamura T, Nishizawa K, Komatsu S, Shimamura S.

Plant Prod Sci. 15 278 - 283 2012
A rice calcium-dependent protein kinase OsCPK12 oppositely modulates salt-stress tolerance and blast disease resistance. Reviewed

Asano T, Hayashi N, Kobayashi M, Aoki N, Miyao A, Mitsuhara I, Ichikawa H, Komatsu S, Hirochika H, Kikuchi S, Ohsugi R.

Plant J. 69 26 - 36 2012
Identification of heterotrimeric G protein α and β subunits in rice. Reviewed

Abe Y, Matsusita K, Komatsu S, Iwasaki Y.

Protein Pept Lett 19 277 - 281 2012
A comparative proteomic analysis of the early response to compatible symbiotic bacteria in the roots of a supernodulating soybean variety. Reviewed

Salavati A, Bushehri AA, Taleei A, Hiraga S, Komatsu S.

J Proteomics. 75 819 - 832 2012
Molecular cloning of a novel calcium-binding protein in the secreted saliva of the green rice leafhopper Nephotettix cincticeps. Reviewed

Hattori M, Nakamura M, Komatsu S, Tsuchihara K, Tamura Y, Hasegawa T.

Insect Biochem Mol Biol. 2 1 - 9 2012
Analysis of proteomic changes in roots of soybean seedlings during recovery after flooding. Reviewed

Salavati A, Khatoon A, Nanjo Y, Komatsu S.

J Proteomics. 75 878 - 893 2012
Mass spectrometry-based analysis of proteomic changes in the root tips of flooded soybean seedlings. Reviewed

Nanjo Y, Skultety L, Uvackova L, Klubicova K, Hajduch M, Komatsu S.

J Proteome Res. 11 372 - 385 2012
Towards an understanding of wheat chloroplasts: a methodical investigation of thylakoid proteome. Reviewed

Kamal AH, Cho K, Komatsu S, Uozumi N, Choi JS, Woo SH.

Mol Biol Rep. 39 5069 - 5083 2012
Characterization of calnexin in soybean roots and hypocotyls under osmotic stress. Reviewed

Nouri MZ, Hiraga S, Yanagawa Y, Sunohara Y, Matsumoto H, Komatsu S.

Phytochemistry. 74 7420 - 7429 2012
Organ-specific proteomic analysis of drought-stressed soybean seedlings. Reviewed

Mohammadi PP, Moieni A, Hiraga S, Komatsu S.

J Proteomics. 75 1906 - 1923 2012
Ubiquitin/proteasome-mediated proteolysis is involved in the response to flooding stress in soybean roots, independent of oxygen limitation. Reviewed

Yanagawa Y, Komatsu S.

Plant Sci. 186 250 - 258 2012
Comparative proteome analysis of drought-sensitive and drought-tolerant rapeseed roots and their hybrid F1 line under drought stress. Reviewed

Mohammadi PP, Moieni A, Komatsu S.

Amino Acids. 43 2137 - 2152 2012
Comparative proteome analysis of high and low cadmium accumulating soybeans under cadmium stress. Reviewed

Hossain Z, Hajika M, Komatsu S.

Amino Acids. 43 2393 - 2426 2012
Proteomic study of β-aminobutyric acid-mediated cadmium stress alleviation in soybean. Reviewed

Hossain Z, Makino T, Komatsu S.

J Proteomics. 75 4151 - 4164 2012
Soybean Proteome Database 2012: update on the comprehensive data repository for soybean proteomics. Reviewed

Ohyanagi H, Sakata K, Komatsu S.

Front Plant Sci. 3 110 - 110 2012
A comparative proteomics analysisin roots of soybean to compatible symbiotic bacteria under flooding stress. Reviewed

Khatoon A, Rehman S, Salavati A, Komatsu S.

Amino Acids. 43 2513 - 2525 2012
Analysis of the proteome of common bean (Phaseolus vulgaris L.) roots after inoculation with Rhizobium etli. Reviewed

Salavati A, Taleei A, Bushehri AA, Komatsu S.

Protein Pept Lett. 19 880 - 889 2012
Organ-specific proteomics analysis for identification of response mechanism in soybean seedlings under flooding stress. Reviewed

Khatoon A, Rehman S, Hiraga S, Makino T, Komatsu S

J Proteomics. 75 5706 - 5723 2012
Proteome analysis of gut and salivary gland proteins of fifth-instar nymph and adults of the sunn pest, Eurygaster integriceps. Reviewed

Bezdi MS, Toorchi M, Pourabad RF, Zarghami N, Nouri MZ, Komatsu S

Arch Insect Biochem Physiol. 1 105 - 119 2012
Comprehensive analysis of endoplasmic reticulum-enriched fraction in root tips of soybean under flooding stress using proteomics techniques. Reviewed

Komatsu S, Kuji R, Nanjo Y, Hiraga S, Furukawa K

J Proteomics. 77 531 - 560 2012
Characterization of ascorbate peroxidase in soybean under flooding and drought stresses. Reviewed

Kausar R, Hossain Z, Makino T, Komatsu S

Mol Biol Rep. 39 10573 - 10579 2012
Analysis of response mechanism in soybean under low oxygen and flooding stresses using gel-base proteomics technique. Reviewed

Khatoon A, Rehman S, Oh MW, Woo SH, Komatsu S

Mol Biol Rep. 39 10581 - 10594 2012
Differential responses of microsomal proteins and metabolites in two contrasting cadmium (Cd)-accumulating soybean cultivars under Cd stress. Reviewed

Ahsan N, Nakamura T, Komatsu S

Amino Acids. 42 317 - 327 2012
Proteomics analysis of rice response involved in reduction of grain yield under elevated ozone stress. Reviewed

Sawada H, Komatsu S, Nanjo Y, Khan NA, Kohno Y.

Environ Exp Botany, 77 108 - 116 2012
Proteomic analysis of susceptible rice expressing the whole plant-specific resistance. Reviewed

Koga H, Dohi K, Nishiuchi T, Kato T, Takahashi H, Mori M, Komatsu S.

Physiol Mol Plant Pathol. 77 60 - 65 2012
The response and protein pattern of spring rapeseed genotypes to sodium chloride stress. Reviewed

Dolatabadi N, Toorchi M, Shakiba MR, Kazemnia H, Komatsu S.

Afri J Agri Res, 7 755 - 763 2012
Evaluation of metabolite alteration under flooding stress in soybean. Reviewed

Nakamura T, Yamamoto R, Shimamura S, Hiraga S, Nakayama N, Ozaki K, Takahashi H, Uchimiya H, Komatsu S.

JARC, 46 237 - 248 2012
Nonsense mutation of an MYB transcription factor is associated with purple-blue flower color in soybean. Reviewed

Takahashi R, Benitez ER, Oyoo ME, Khan NA, Komatsu S.

J Hered. 102 458 - 463 2011
Characteristics of soybean 1-Cys peroxiredoxin and its behavior in seedlings under flooding stress. Reviewed

Nishizawa K, Komatsu S.

Plant Biotech. 28 83 - 88 2011
Proteomic analysis of secreted proteins from aseptically grown rice. Reviewed

Shinano T, Komatsu S, Yoshimura T, Tokutaka S, Kong FJ, Watanabe T, Wasaki J, Osaki M.

Phytochemistry. 72 312 - 320 2011
Negative feedback regulation of microbe-associated molecular pattern-induced cytosolic Ca2+ transients by protein phosphorylation. Reviewed

Kurusu T, Hamada H, Sugiyama Y, Yagala T, Kadota Y, Furuichi T, Hayashi T, Umemura K, Komatsu S, Miyao A, Hirochika H, Kuchitsu K.

J Plant Res. 124 415 - 424 2011
Functional characterisation of OsCPK21, a calcium-dependent protein kinase that confers salt tolerance in rice. Reviewed

Asano T, Hakata M, Nakamura H, Aoki N, Komatsu S, Ichikawa H, Hirochika H, Ohsugi R.

Plant Mol Biol. 75 179 - 191 2011
Application of proteomics to investigate stress-induced proteins for improvement in crop protection. Reviewed

Afroz A, Ali GM, Mir A, Komatsu S.

Plant Cell Rep. 30 745 - 763 2011
Analysis of proteins in aerenchymatous seminal roots of wheat grown in hypoxic soils under waterlogged conditions. Reviewed

Haque ME, Kawaguchiand K, Komatsu S.

Protein Pept Lett. 18 912 - 924 2011
Comparative proteomic analysis of canola leaves under salinity stress. Reviewed

Bandehagh A, Salekdeh GH, Toorchi M, Mohammadi A, Komatsu S.

Proteomics. 11 1965 - 19775 2011
Characterization of a novel flooding stress-responsive alcohol dehydrogenase expressed in soybean roots. Reviewed

Komatsu S, Deschamps T, Hiraga S, Kato M, Chiba M, Hashiguchi A, Tougou M, Shimamura S, Yasue H.

Plant Mol Biol. 77 309 - 322 2011
Transcriptional responses to flooding stress in roots including hypocotyl of soybean seedlings. Reviewed

Nanjo Y, Maruyama K, Yasue H, Yamaguchi-Shinozaki K, Shinozaki K, Komatsu S.

Plant Mol Biol. 77 129 - 44 2011
Comprehensive analysis of mitochondria in roots and hypocotyls of soybean under flooding stress using proteomics and metabolomics techniques. Reviewed

Komatsu S, Yamamoto A, Nakamura T, Nouri MZ, Nanjo Y, Nishizawa K, Furukawa K.

J Proteome Res. 10 3993 - 4004 2011
Salinity stress responses of halophytic grass Aeluropus lagopoides and recovery. Reviewed

Sobhanian H, Motamed N, Rastgar F, Razavi K, Niknam V, Komatsu S.

Russ J Plant Physiol. 57 784 - 791 2010
Salt stress induced differential proteome and metabolome response in the shoots of Aeluropus lagopoides (Poaceae), a halophyte C(4) plant. Reviewed

Sobhanian H, Motamed N, Jazii FR, Nakamura T, Komatsu S.

J Proteome Res. 9 2882 - 2897 2010
Tissue-specific defense and thermo-adaptive mechanisms of soybean seedlings under heat stress revealed by proteomic approach. Reviewed

Ahsan N, Donnart T, Nouri MZ, Komatsu S.

J Proteome Res. 9 4189 - 4204 2010
Ozone stress-induced proteomic changes in leaf total soluble and chloroplast proteins of soybean reveal that carbon allocation is involved in adaptation in the early developmental stage. Reviewed

Ahsan N, Nanjo Y, Sawada H, Kohno Y, Komatsu S.

Proteomics. 10 2605 - 2819 2010
Expression of human oocyte-specific linker histone protein and its incorporation into sperm chromatin during fertilization. Reviewed

Mizusawa Y, Kuji N, Tanaka Y, Tanaka M, Ikeda E, Komatsu S, Kato S, Yoshimura Y.

Fertil Steril. 93 1134 - 1141 2010
Identification of flooding stress responsible cascades in root and hypocotyl of soybean using proteome analysis. Reviewed

Komatsu S, Sugimoto T, Hoshino T, Nanjo Y, Furukawa K.

Amino Acids. 38 729 - 738 2010
Comparative proteomics analysis of differentially expressed proteins in soybean cell wall during flooding stress. Reviewed

Komatsu S, Kobayashi Y, Nishizawa K, Nanjo Y, Furukawa K.

Amino Acids. 39 1435 - 1449 2010
Comparative proteomic analysis of early-stage soybean seedlings responses to flooding by using gel and gel-free techniques. Reviewed

Nanjo Y, Skultety L, Ashraf Y, Komatsu S.

J Proteome Res. 9 3989 - 4002 2010
Stem hypertrophic lenticels and secondary aerenchyma enable oxygen transport to roots of soybean in flooded soil. Reviewed

Shimamura S, Yamamoto R, Nakamura T, Shimada S, Komatsu S.

Ann Bot. 106 277 - 284 2010
Cell wall proteome of wheat roots under flooding stress using gel-based and LC MS/MS-based proteomics approaches. Reviewed

Kong FJ, Oyanagi A, Komatsu S.

Biochim Biophys Acta. 180 124 - 136 2010
Overexpression of a calcium-dependent protein kinase gene enhances growth of rice under low-nitrogen conditions. Reviewed

Asano T, Wakayama M, Aoki N, Komatsu S, Ichikawa H, Hirochika H, Ohsugi R.

Plant Biotech. 27 369 - 373 2010
Proteome analysis of soybean leaves, hypocotyls and roots under salt stress. Reviewed

Sobhanian H, Razavizadeh R, Nanjo Y, Ehsanpour AA, Jazii FR, Motamed N, Komatsu S.

Proteome Sci. 8 19 - 19 2010
Comparison of Nitrogen Utilization of the supernodulating soybean variety “Sakukei 4” and its wild varieties, “Enrei” and “Tamahomare”. Reviewed

Nakamura T, Nakayama N, Yamamoto R, Shimamura S, Kim Y, Hiraga S, Ohyama T, Komatsu S, Shimada S.

Plant Prod Sci. 13 123 - 131 2010
Analyses of the proteomes of the leaf, hypocotyl, and root of young soybean seedlings. Reviewed

Afroz A, Hashiguchi A, Khan MR, Komatsu S.

Protein Pept Lett. 17 319 - 331 2010
Determination of proteins induced in response to jasmonic acid and salicylic acid in resistant and susceptible cultivars of tomato. Reviewed

Afroz A, Khan MR, Komatsu S.

Protein Pept Lett. 17 836 - 846 2010
Comparative analysis of soybean plasma membrane proteins under osmotic stress using gel-based and LC MS/MS-based proteomics approaches. Reviewed

Nouri MZ, Komatsu S.

Proteomics. 10 1930 - 1945 2010
Evaluation of drought related characters and protein pattern in winter rapeseed genotypes. Reviewed

Amouzgar MR, Toorchi M, Moghaddam M, Vazadeh M, Komatsu S.

Int J Appl Agri Res. 4 63 - 73 2009
Proteome analysis of soybean hypocotyl and root under salt stress. Reviewed

Aghaei K, Ehsanpour AA, Shah AH, Komatsu S.

Amino Acids. 36 91 - 98 2009
Soybean proteome database: a data resource for plant differential omics. Reviewed

Sakata K, Ohyanagi H, Nobori H, Nakamura T, Hashiguchi A, Nanjo Y, Mikami Y, Yunokawa H, Komatsu S.

J Proteome Res. 8 3539 - 3548 2009
Proteome analysis of rice root plasma membrane and detection of cold stress responsive proteins. Reviewed

Hashimoto M, Toorchi M, Matsushita K, Iwasaki Y, Komatsu S.

Protein Pept Lett. 16 685 - 697 2009
Comparative proteomic analysis of bacterial wilt susceptible and resistant tomato cultivars. Reviewed

Afroz A, Khan MR, Ahsan N, Komatsu S.

Peptides. 30 1600 - 1607 2009
Proteome analysis of tobacco leaves under salt stress. Reviewed

Razavizadeh R, Ehsanpour AA, Ahsan N, Komatsu S.

Peptides. 30 1651 - 1659 2009
Characterization of a histidine- and alanine-rich protein showing interaction with calreticulin in rice. Reviewed

Komatsu S, Jan A, Koga Y.

Amino Acids. 36 137 - 146 2009
Gibberellin-regulated gene in the basal region of rice leaf sheath encodes basic helix-loop-helix transcription factor. Reviewed

Komatsu S, Takasaki H.

Amino Acids. 37 21 - 238 2009
Analysis of plasma membrane proteome in soybean and application to flooding stress response. Reviewed

Komatsu S, Wada T, Abala Y, Nouri MZ, Nanjo Y, Nakayama N, Shimamura S, Yamamoto R, Nakamura T, Furukawa K.

J Proteome Res. 8 4487 - 4499 2009
A comprehensive analysis of the soybean genes and proteins expressed under flooding stress using transcriptome and proteome techniques. Reviewed

Komatsu S, Yamamoto R, Nanjo Y, Mikami Y, Yunokawa H, Sakata K.

J Proteome Res. 8 4766 - 4778 2009
Identification of cleistogamy-associated proteins in flower buds of near-isogenic lines of soybean by differential proteomic analysis. Reviewed

Khan NA, Takahashi R, Abe J, Komatsu S.

Peptides. 30 2095 - 2102 2009
Proteome analysis of early-stage soybean seedlings under flooding stress. Reviewed

Hashiguchi A, Sakata K, Komatsu S.

J Proteome Res. 8 2058 - 2069 2009
Proteomics approach for identifying osmotic-stress-related proteins in soybean roots. Reviewed

Toorchi M, Yukawa K, Nouri MZ, Komatsu S.

Peptides. 30 2108 - 2117 2009
Proteome analysis of probenazole-effect in rice-bacterial blight interactions. Reviewed

Mahmood T, Kakishima M, Komatsu S.

Protein Pept Lett. 16 1041 - 1052 2009
Comparative analyses of the proteomes of leaves and flowers at various stages of development reveal organ-specific functional differentiation of proteins in soybean. Reviewed

Ahsan N, Komatsu S.

Proteomics. 9 4889 - 4907 2009
Potato responds to salt stress by increased activity of antioxidant enzymes. Reviewed

Aghaei K, Ehsanpour AA, Komatsu S.

J Integr Plant Biol. 51 1095 - 1103 2009
Changes and characterization of glycoproteins of basal parts of leaf sheath of rice by cold stress. Reviewed

Komatsu S, Yamada E, Furukawa K.

Amino Acids. 36 115 - 123 2009
Proteomic analysis of bacterial blight defense signaling pathway using thamatin-like protein overexpressed transgenic rice. Reviewed

Mahmood T, Jan A, Komatsu S.

Biol Plant. 52 285 - 293 2009
Characterization of beta-tubulin 4 regulated by gibberellin in rice leaf sheath. Reviewed

Yang G, Jan A, Komatsu S.

Biol Plant. 53 422 - 428 2009
Acoustic technology for high-performance disruption and extraction of plant proteins. Reviewed

Toorchi M, Nouri MZ, Tsumura M, Komatsu S.

J Proteome Res. 7 3035 - 3041 2008
Cytosolic ascorbate peroxidase 2 (cAPX 2) is involved in the soybean response to flooding. Reviewed

Shi F, Yamamoto R, Shimamura S, Hiraga S, Nakayama N, Nakamura T, Yukawa K, Hachinohe M, Matsumoto H, Komatsu S.

Phytochemistry. 69 1295 - 1303 2008
Water uptake by seeds in yellow-seeded soybean (Glycine max (L.) Merrill) cultivars with contrasting imbibition behaviors. Reviewed

Nakayama N, Komatsu S.

Plant Prod Sci. 11 415 - 521 2008
A novel metric embedding optimal normalization mechanism for clustering of series data. Reviewed

Mitsui S, Sakata K, Nobori H, Komatsu S.

ICE Transactions on Information and Systems. 91 2369 - 2371 2008
Proteome analysis of proteins responsive to ambient and elevated ozone in rice seedlings. Reviewed

Feng Y, Komatsu S, Furukawa S, Koshiba T, Kohno Y.

Agri Eco Environ 125 255 - 265 2008
Quantitative analysis of auxin-regulated proteins from basal part of leaf sheaths in rice by two-dimensional difference gel electrophoresis. Reviewed

Shi F, Takasaki H, Komatsu S.

Phytochemistry. 69 637 - 648 2008
Identification and characterization of a gibberellin-regulated protein, which is ASR5, in the basal region of rice leaf sheaths. Reviewed

Takasaki H, Mahmood T, Matsuoka M, Matsumoto H, Komatsu S.

Mol Genet Genomics. 279 359 - 370 2008
Proteome analysis of potato under salt stress. Reviewed

Aghaei K, Ehsanpour AA, Komatsu S.

J Proteome Res. 7 4858 - 4868 2008
Comparative proteomic study of arsenic-induced differentially expressed proteins in rice roots reveals glutathione plays a central role during As stress. Reviewed

Ahsan N, Lee DG, Alam I, Kim PJ, Lee JJ, Ahn YO, Kwak SS, Lee IJ, Bahk JD, Kang KY, Renaut J, Komatsu S, Lee BH.

Proteomics. 8 3561 - 3576 2008
Proteomic characterization of tissue expansion of rice scutellum stimulated by abscisic acid. Reviewed

Asakura T, Hirose S, Asatsuma S, Nanjo Y, Nakaizumi T, Itoh K, Hori H, Komatsu S, Mitsui T.

Biosci Biotechnol Biochem. 71 1260 - 1268 2007
Functional analysis of OsTUB8, an anther-specific β-tubulin in rice. Reviewed

Yang G, Jan A, Kitano H, Komatsu S.

Plant Sci. 172 832 - 838 2007
Proteomic analysis of jasmonic acid-regulated proteins in rice leaf blades. Reviewed

Mahmood T, Kakishima M, Komatsu S.

Protein Pept Lett. 14 311 - 319 2007
Retrograde regulation of nuclear gene expression in CW-CMS of rice. Reviewed

Fujii S, Komatsu S, Toriyama K.

Plant Mol Biol. 63 405 - 417 2007
A proteomics approach for identifyingosmotic-stress-related proteins in rice. Reviewed

Zang X, Komatsu S.

Phytochemistry. 68 426 - 437 2007
Curated genome annotation of Oryza sativa ssp. japonica and comparative genome analysis with Arabidopsis thaliana. Reviewed

138. Rice Annotation Project, Itoh T, Tanaka T, Barrero RA, Yamasaki C, Fujii Y, Hilton PB, Antonio BA, Aono H, Apweiler R, Bruskiewich R, Bureau T, Burr F, Costa de Oliveira A, Fuks G, Habara T, Haberer G, Han B, Harada E, Hiraki AT," "Hirochika H, Hoen D, Hokari H, Hosokawa S, Hsing YI, Ikawa H, Ikeo K, Imanishi T, Ito Y, Jaiswal P, Kanno M, Kawahara Y, Kawamura T, Kawashima H, Khurana JP, Kikuchi S, Komatsu S, et al.

Genome Res. 17 175 - 183 2007
Over-expression of calcium-dependent protein kinase 13 and calreticulin interacting protein 1 confers cold tolerance on rice plants. Reviewed

Komatsu S, Yang G, Khan M, Onodera H, Toki S, Yamaguchi M.

Mol Genet Genomics. 277 713 - 723 2007
Proteomic analysis of rice seedlings during cold stress. Reviewed

Hashimoto M, Komatsu S.

Proteomics. 7 1293 - 1302 2007
gid1, a gibberellin-insensitive dwarf mutant, shows altered regulation of probenazole-inducible protein (PBZ1) in response to cold stress and pathogen attack. Reviewed

Tanaka N, Matsuoka M, Kitano H, Asano T, Kaku H, Komatsu S.

Plant Cell Environ. 29 619 - 631 2006
Gibberellin regulates mitochondrial pyruvate dehydrogenase activity in rice. Reviewed

Jan A, Nakamura H, Handa H, Ichikawa H, Matsumoto H, Komatsu S.

Plant Cell Physiol. 47 244 - 253 2006
Comparison of two proteomics techniques used to identify proteins regulated by gibberellin in rice. Reviewed

Komatsu S, Zang X, Tanaka N.

J Proteome Res. 5 270 - 276 2006
Proteomic analysis of rice leaf sheath during drought stress. Reviewed

Ali GM, Komatsu S.

J Proteome Res. 5 396 - 403 2006
Isolation of gemetes and central cells from Oryza sativa L. Reviewed

Uchiumi T, Komatsu S, Koshiba T, Okamoto T.

Sex. Plant Repro. 19 37 - 45 2006
Protein profile in the transgenic kiwifruit over expressing a transcription factor gene, OSH1. Reviewed

Kita M, Honda C, Komatsu S, Fujii Y, Kusaba S, Moriguchi T.

Biol. Plant. 50 759 - 762 2006
Susceptibility to coolness at the young microspore stage under high nitrogen supply rice (Oryza sativa L.): Proteome analysis of mature anthers. Reviewed

Hayashi T, Yamaguchi T, Nakayama K, Komatsu S, Koike S.

Plant Prod. Sci. 9 212 - 218 2006
Interactions of two abscisic-acid induced WRKY genes in repressing gibberellin signaling in aleurone cells. Reviewed

Xie Z, Zhang ZL, Zou X, Yang G, Komatsu S, Shen QJ.

Plant J. 46 231 - 242 2006
OsBLE3, a brassinolide-enhanced gene, is involved in the growth of rice. Reviewed

Yang G, Nakamura H, Ichikawa H, Kitano H, Komatsu S.

Phytochemistry. 67 1442 - 1454 2006
The rice OsGAE1 is a novel gibberellin-regulated gene and involved in rice growth. Reviewed

Jan A, Kitano H, Matsumoto H, Komatsu S.

Plant Mol Biol. 62 439 - 452 2006
Proteomic analysis of bacterial-blight defense-responsive proteins in rice leaf blades. Reviewed

Mahmood T, Jan A, Kakishima M, Komatsu S.

Proteomics. 6 6053 - 6065 2006
Characterization of vacuolar membrane proteins changed in rice root treated with gibberellin. Reviewed

Konishi H, Maeshima M, Komatsu S.

J Proteome Res. 4 1775 - 1780 2005
High throughput metabolome and proteome analysis of transgenic rice plants (Oryza sativa L.). Reviewed

Takahashi H, Hotta Y, Hayashi M, Kawai-Yamada M, Komatsu S, Uchimiya H.

Plant Biotechnol. 22 47 - 50 2005
Protein kinase A activity and protein phosphorylation during the mouse sperm acrosomal reaction. Reviewed

Kuji N, Tanaka Y, Komatsu S, Yoshimura Y.

Archiv Androl. 51 55 - 64 2005
A gibberellin-regulated protein is phosphorylated by Ca2+ -dependent protein kinase, which is downstream to the heterotrimeric G protein in rice root. Reviewed

M. Khan, S. Yang, Y. Iwasaki, Y. Fujisawa, H. Fukuda, S. Komatsu.

Plant Cell Environ. 28 679 - 687 2005
A 55-kDa calcium dependent protein kinase phosphorylated Thr residues from the auto-regulatory domain of plasma membrane H+-ATPase in rice. Reviewed

Ookura T, Komatsu S, Kawamura Y, Kasamo K.

JARC 39 99 - 104 2005
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. Reviewed

Asano T, Tanaka N, Yang G, Hayashi N, Komatsu S.

Plant Cell Physiol. 46 356 - 355 2005
Expression and function of proteins during development of the basal region in rice seedlings. Reviewed

Tanaka N, Mitsui S, Nobori H, Yanagi K, Komatsu S.

Mol Cell Proteomics. 4 796 - 808 2005
Identification of rice root proteins regulated by gibberellin using proteome analysis. Reviewed

Konishi H, Kitano H, Komatsu S.

Plant Cell Environ. 28 328 - 339 2005
A proteomic approach to analyze auxin- and zinc-responsive protein in rice. Reviewed

Yang G, Inoue A, Takasaki H, Kaku H, Akao S, Komatsu S.

J Proteome Res. 4 456 - 463 2005
Identification of phosphoproteins regulated by gibberellin in rice leaf sheath. Reviewed

Khan MM, Jan A, Karibe H, Komatsu S.

Plant Mol Biol. 58 27 - 40 2005
Proteomic analysis of rice embryo: an approach for investigating Galpha protein-regulated proteins. Reviewed

Komatsu S, Abbasi F, Kobori E, Fujisawa Y, Kato H, Iwasaki Y.

Proteomics. 5 3932 - 3941 2005
Fine resolution of human sperm nucleoproteins by two-dimensional electrophoresis. Reviewed

Yoshii T, Kuji N, Komatsu S, Iwahashi K, Tanaka Y, Yoshida H, Wada A, Yoshimura Y.

Mol Hum Reprod. 11 677 - 681 2005
Proteome approach to characterize the methylmalonate-semialdehyde dehydrogenase that is regulated by gibberellin. Reviewed

Tanaka N, Takahashi H, Kitano H, Matsuoka M, Akao S, Uchimiya H, Komatsu S.

J Proteome Res. 4 1575 - 1582 2005
Comprehensive phosphoproteome analysis in rice and identification of phosphoproteins responsive to different hormones/stresses. Reviewed

Khan M, Takasaki H, Komatsu S.

J Proteome Res. 4 1592 - 1599 2005
Characterization of fructose-bisphosphate aldolase regulated by gibberellin in roots of rice seedling. Reviewed

Konishi H, Yamane H, Maeshima M, Komatsu S.

Plant Mol Biol. 56 839 - 849 2004
A proteomic approach to analyze salt-responsive proteins in rice leaf sheath. Reviewed

Abbasi FM, Komatsu S.

Proteomics. 4 2072 - 2081 2004
Chitinase induced by jasmonic acid, methyl jasmonate, ethylene and protein phosphatase inhibitors in rice. Reviewed

Rakwal R, Yang G, Komatsu S.

Mol Biol Rep. 31 113 - 119 2004
Arabidopsis COP10 forms a complex with DDB1 and DET1 in vivo and enhances the activity of ubiquitin conjugating enzymes. Reviewed

Yanagawa Y, Sullivan JA, Komatsu S, Gusmaroli G, Suzuki G, Yin J, Ishibashi T, Saijo Y, Rubio V, Kimura S, Wang J, Deng XW.

Genes Dev. 18 2172 - 2181 2004
Characterization of a xyloglucan endotransglucosylase gene that is up-regulated by gibberellin in rice. Reviewed

Jan A, Yang G, Nakamura H, Ichikawa H, Kitano H, Matsuoka M, Matsumoto H, Komatsu S.

Plant Physiol. 136 3670 - 3681 2004
OsCDPK13, a calcium-dependent protein kinase gene from rice, is induced by cold and gibberellin in rice leaf sheath. Reviewed

Abbasi F, Onodera H, Toki S, Tanaka H, Komatsu S.

Plant Mol Biol. 55 541 - 552 2004
Abscisic acid promoted changes in the protein profiles of rice seedling by proteome analysis. Reviewed

Rakwal R, Komatsu S.

Mol Biol Rep. 31 217 - 230 2004
A novel interaction between calreticulin and ubiquitin-like nuclear protein in rice. Reviewed

Sharma A, Isogai M, Yamamoto T, Sakaguchi K, Hashimoto J, Komatsu S.

Plant Cell Physiol. 45 684 - 692 2004
Proteomics of the rice cell: systematic identification of the protein populations in subcellular compartments. Reviewed

Tanaka N, Fujita M, Handa H, Murayama S, Uemura M, Kawamura Y, Mitsui T, Mikami S, Tizawa Y, Yoshinaga T, Komatsu S.

Mol Gen Genom. 271 566 - 576 2004
Microarray analysis of brassinosteroids- and gibberellin-regulated gene expression in rice seedlings. Reviewed

Yang G, Jan A, yazaki J, Ishikawa M, Shimatani Z, Kishimoto N, Kikuchi S, Matsumoto H, Komatsu S.

Mol Gen Genom. 271 468 - 478 2004
Proteome analysis of rice tissues by two-dimensional electrophoresis: an approach to the investigation of gibberellin regulated proteins. Reviewed

Tanaka N, Konishi H, Khan M, Komatsu S.

Mol Gen Genom. 270 385 - 496 2004
Alterations by a defect in a rice G protein α subunit in probenazole and pathogen induced responses. Reviewed

S.Komatsu, G.Yang, N.Hayashi, H.Kaku, K.Umemura, Y.Iwasaki.

Plant Cell Environ. 27 947 - 957 2004
Rice Proteome Database based on two-dimensional polyacrylamide gel electrophoresis: its status in 2003. Reviewed

Komatsu S, Kojima K, Suzuki K, Ozaki K, Higo K.

Nucleic Acids Res. 32 388 - 392 2004
Methylmalonate-semialdehyde dehydrogenase is induced in auxin-stimulated and zinc-stimulated root formation in rice. Reviewed

Oguchi K, Tanaka N, Komatsu S, Akao S.

Plant Cell Rep. 22 848 - 858 2004
Molecular cloning and characterization of a novel brassinolide enhanced gene OsBLE1 in Oryza sativa seedlings. Reviewed

Yang G, Komatsu S.

Plant Physiol Biochem. 42 1 - 6 2004
Characterization of NADPH-dependent oxidoreductase induced by auxin in rice. Reviewed

Oguchi K, Tanaka N, Komatsu S, Akao S.

Physiol Plant. 121 124 - 131 2004
Proteomic analysis of brown planthopper: application to the study of carbamate toxicity. Reviewed

Sharma R, Komatsu S, Noda H.

Insect Biochem Mol Biol. 34 425 - 432 2004
A novel rice PR10 protein, RSOsPR10, specifically induced in roots by biotic and abiotic stresses, possibly via the jasmonic acid signaling pathway. Reviewed

Hashimoto M, Kisseleva L, Sawa S, Furukawa T, Komatsu S, Koshiba T.

Plant Cell Physiol. 45 550 - 559 2004
Expression analyses of beta-tubulin isotype genes in rice. Reviewed

Yoshikawa M, Yang G, Kawaguchi K, Komatsu S.

Plant Cell Physiol. 44 1202 - 1207 2003
Proteome analysis of the relationship between bruchid-resistant and -susceptible mungbean genotypes. Reviewed

Khan M, Khan A, Ishimoto M, Kitamura K, Komatsu S.

Plant Genetic Resources: Characterisation and Utilisation. 1 115 - 123 2003
Involvement of protein phosphorylation and reactive species jasmonate-elicited accumulation of defense/stress-related proteins in rice seedling. Reviewed

Rakwal R, Khan M, Komatsu S.

J Biol Sci. . 3 994 - 1009 2003
Expression of the exocytotic protein syntaxin in mouse oocytes. Reviewed

Iwahashi K, Juji N, Komatsu S, Yoshimura Y, Akagawa K.

Reproduction, 126 73 - 81 2003
OsCDPK13, a calcium-dependent protein kinase gene from rice, is induced in response to cold and gibberellin. Reviewed

Yang G, Shen S, Yang S, Komatsu S.

Plant Physiol Biochem. 41 369 - 374 2003
Modulation of vacuolar H+ -pumps and aquaporin by phytohormones in rice seedling leaf sheaths. Reviewed

Yang S, Maeshima M, Tanaka Y, Komatsu S.

Biol Pharm Bull. 26 88 - 92 2003
Characterization of proteins responsive to gibberellin in the leaf-sheath of rice (Oryza sativa L.) seedling using proteome analysis. Reviewed

Shen S, Sharma A, Komatsu S.

Biol Pharm Bull. 26 129 - 136 2003
Characterization of calreticulin as a phosphoprotein interacting with cold-induced protein kinase in rice. Reviewed

Li Z, Onodera H, Ugaki M, Tanaka H, Komatsu S.

Biol Pharm Bull. 26 256 - 261 2003
A proteomics approach to investigating promotive effects of brassinolide on lamina inclination and root growth in rice seedlings. Reviewed

Konishi H, Komatsu S.

Biol Pharm Bull. 26 401 - 408 2003
A novel brassinolide-enhanced gene identified by cDNA microarray is involved in the growth of rice. Reviewed

Yang G, Matsuoka M, Iwasaki Y, Komatsu S.

Plant Mol Biol. 52 843 - 854 2003
Cell-cycle-related variation in proteins in suspension-cultured rice cells. Reviewed

Takase T, Yanagawa Y, Komatsu S, Nakagawa H, Hashimoto J.

J Plant Res. 116 469 - 475 2003
Aquaporin isoforms responsive to salt and water stresses and phytohormones in radish seedlings. Reviewed

Suga S, Komatsu S, Maeshima M.

Plant Cell Physiol. 43 1229 - 1237 2002
Function of ribulose-1,5-bisphosphate carboxylase/oxygenase activase on perception of gibberellin in rice. Reviewed

Komatsu S, Zhang Z, Konishi H, Tagiri A, Tanaka H, Yoshikawa M, Yang G.

Res Commun Biochem Cell Mol Biol. 6 69 - 20 2002
Immunological evidence for the induced accumulation of chitinase by jasmonic acid, methy jasmonate, ethylene and protein phosphatase inhibitors in rice. Reviewed

Rakwal R, Komatsu S.

Res Commun Biochem Cell Mol Biol. 6 39 - 56 2002
Characterization of a membrane-associated phosphoprotein (pp47) in rice (Oryza sativa L.) seedlings treated by gibberellin. Reviewed

Komatsu S, Yang G, Unno K, Park P.

J Plant Physiol. 159 121 - 128 2002
Involvement of a Ca(2+)-dependent protein kinase component downstream to the gibberellin-binding phosphoprotein, RuBisCO activase, in rice. Reviewed

Sharma A, Komatsu S.

Biochem Biophys Res Commun. 290 690 - 695 2002
A proteomic analysis of leaf sheaths from rice. Reviewed

Shen S, Matsubae M, Takao T, Tanaka N, Komatsu S.

J Biochem. 132 613 - 620 2002
Identification of a membrane-associated protein that is phosphorylated in gibberellin-treated rice seedlings. Reviewed

Komatsu S, Konishi H, Yang G, Rakwal R.

Res Commun Biochem Cell Mol Biol. 5 133 - 145 2001
Characterization of mustard [Brassica juncea (L.) Czern. & Coss.] germplasm by SDS-PAGE of total seed proteins. Reviewed

Rabbani MA, Qureshi AA, Afzal M, Anwar R, Komatsu S.

Pak J Bot. 33 173 - 179 2001
A proteomics approach towards understanding blast fungus infection of rice grown under different levels of nitrogen fertilization. Reviewed

Konishi H, Ishiguro K, Komatsu S.

Proteomics 1 1162 - 1171 2001
Jasmonic acid-induced necrosis and drastic decreases in ribulose-1,5-bisphosphate carboxylase/oxygenase in rice seedlings under light involves reactive oxygen species. Reviewed

Rakwal R, Komatsu S.

J Plant Physiol. 158 679 - 688 2001
Antisense inhibition of a BRI1 receptor reveals additional protein kinase signaling components downstream to the perception of brassinosteroids in rice. Reviewed

Sharma A, Matsuoka M, Tanaka H, Komatsu S.

FEBS Lett. 507 346 - 350 2001
Characterization of a Ca2+-dependent protein kinase from rice root: differential response to cold and regulation by abscisic acid. Reviewed

69. Komatsu S, Li W, Konishi H, Yoshikawa M, Konishi T, Yang G.

Biol Pharm Bull. 24 1316 - 1319 2001
Immunological evidence for pathogenesis related proteins by jasmonic acid and blast infection in rice. Reviewed

Rakwal R, Kaku H, Komatsu S.

Res Commun Biochem Cell Mol Biol. 5 3 - 25 2001
Molecular cloning and characterization of calreticulin, a calcium-binding protein involved in the regeneration of rice cultured suspension cells. Reviewed

Li Z, Komatsu S.

Eur J Biochem. 267 737 - 745 2000
Role of jasmonate in the rice (Oryza sativa L.) self-defense mechanism using proteome analysis. Reviewed

Rakwal R, Komatsu S.

Electrophoresis 21 2492 - 2500 2000
Targeting activated lymphocytes with an entirely human immunotoxin analogue: human pancreatic RNase1-human IL-2 fusion. Reviewed

Psarras K, Ueda M, Tanabe M, Kitajima M, Aiso S, Komatsu S, Seno M.

Cytokine. 12 786 - 790 2000
Cold stress-induced calcium-dependent protein kinase(s) in rice (Oryza sativa L.) seedling stem tissues. Reviewed

Li W, Komatsu S.

Theor Appl Genet. 101 353 - 363 2000
Molecular cloning and characterization of cDNAs encoding two isoforms of ribulose-1,5-bisphosphate carboxylase/oxygenase activase in rice (Oryza sativa L.). Reviewed

Zhang Z, Komatsu S.

J Biochem. 128 383 - 389 2000
Involvement of calcium-dependent protein kinase in rice (Oryza sativa L.) lamina inclination caused by brassinolide. Reviewed

Yang G, Komatsu S.

Plant Cell Physiol. 41 1243 - 1250 2000
N-terminal amino acid sequences of prolamins encoded by the alleles at the Pro1 and Pro2 loci in foxtail millet, Setaria italica (L.) P. Beauv. Reviewed

Nakayama H, Komatsu S, Namai H, Okuno K.

Genes Genet Syst 74 309 - 314 1999
Phosphorylation upon cold stress in rice (Oryza sativa L.) seedlings. Reviewed

Komatsu S, Hamada H, Karibe H, Rakwal R.

Theor Appl Genet. 98 1304 - 1310 1999
Characterization of protein complexes containing nucleoside diphosphate kinase with characteristics of light signal transduction through phytochrome in etiolated pea seedlings. Reviewed

Ogura T, Tanaka N, Yabe N, Komatsu S, Hasunuma K.

Photo Photo. 69 397 - 403 1999
Separation and characterization of protein in rice (Oryza Sativa) suspension cultures cells. Reviewed

Komatsu S, Rakwal R, Li Z.

Plant Cell Tiss Organ Cult. 55 183 - 999 1999
Phosphorylation of proteins in the stem section of etiolated rice seedling irradiated with red light. Reviewed

Hamada T, Hasunuma K, Komatsu S.

Biol Pharm Bull. 22 122 - 126 1999
Separation and characterization of proteins from green and etiolated shoots of rice (Oryza sativa L.): towards a rice proteome. Reviewed

Komatsu S, Muhammad A, Rakwal R.

Electrophoresis. 20 630 - 636 1999
The involvement of Ca2+-dependent protein kinase in the regeneration of rice cultured suspension cells. Reviewed

Karibe H, Komatsu S.

Biol Pharm Bull. 21 163 - 166 1998
Human pancreatic RNase1-human epidermal growth factor fusion: an entirely human 'immunotoxin analog' with cytotoxic properties against squamous cell carcinomas. Reviewed

Psarras K, Ueda M, Yamanura T, Ozawa S, Kitajima M, Komatsu S, Seo M.

Protein Engineering. 11 1285 - 1292 1998
Varietal differences in protein phosphorylation during cold treatment of rice leaves. Reviewed

Komatsu S, Kato A.

Phytochemistry. 45 1329 - 1335 1997
Effect of abscisic acid on phosphatidylserine-sensitive calcium dependent protein kinase activity and protein phosphorylation in rice. Reviewed

Komatsu S, Karibe H, Masuda T.

Biosci Biotech Biochem. 61 418 - 423 1997
Analysis of protein kinases involved in growth regulation of rice embryos and leaves. Reviewed

Karibe H, Komatsu S.

Biol Pharm Bull. 20 1039 - 1043 1997
Protein phosphorylation during heading time in rice. Reviewed

Komatsu S, Xia BS.

Biosci Biotech Biochem. 61 1312 - 1316 1997
Screening of rice genes of a cDNA catalog based on the sequence data-file of proteins separated by two-dimensional electrophoresis. Reviewed

Zhong B, Komatsu S, Hirano H.

Breed Sci. . 47 245 - 251 1997
Partial purification and characterization of a calcium-dependent protein kinase in rice leaves. Reviewed

Karibe H, Komatsu S, Hirano H.

Phytochemistry. 41 1459 - 1464 1996
Phosphatidylserine-sensitive calcium dependent protein kinase in rice embryo. Reviewed

Komatsu S, Karibe H, Xia BX, Hirano H.

Phytochemistry. 42 21 - 27 1996
ASABF, a novel cysteine-rich antibacterial peptide isolated from the nematode Ascaris suum. Purification, primary structure, and molecular cloning of cDNA. Reviewed

Kato Y. Komatsu S.

J Biol Chem. 271 30493 - 30498 1996
Protein Kinases from Soybean and Rice Leaves. Reviewed

Karibe H, Komatsu S.

Biosci Biotech Biochem. 60 530 - 531 1996
Phosphorylation of a protein (pp56) is related to the regeneration of rice cultured suspension cells. Reviewed

Komatsu S, Masuda T, Abe K.

Plant Cell Physiol. 37 748 - 753 1996
Epidermal growth factor binding proteins in rice (Oryza sativa L.) leaves. Reviewed

Komatsu S, Abe K, Karibe H.

Biol Pharm Bull. 19 905 - 908 1996
Rice gibberellin-binding phosphoprotein structurally related to ribulose-1,5-bisphosphate carboxylase/oxygenase activase. Reviewed

Komatsu S, Masuda T, Hirano H.

FEBS Lett. 384 167 - 171 1996
Linkage analysis of the gene loci for seed glutin (Glu-1), semidwarfism (sd-1) and shattering habit (sh-2) in rice (Oryza sativa L). Reviewed

Nakamura A, Komatsu S, Xia BS, Hirano H.

Breed Sci. . 45 185 - 188 1995
A calcium- and phospholipid-dependent proein kinase from rice (Oryza sativa L) leaves. Reviewed

Karibe H, Komatsu S, Hirano H.

Physiologia Plantarum. 95 127 - 133 1995
Nucleotide sequence of a soybean (Glycine max L. Merr.) ubiquitin gene. Reviewed

Xia BS, Waterhouse RN, Watanabe Y, Kajiwara H, Komatsu S, Hirano H.

Plant Physiol. 104 805 - 806 1994
Protein kinase-catalysed protein phosphorylation in rice leaves. Reviewed

Masuda T, Komatsu S, Hirano H.

Phytochemistry 36 1147 - 1151 1994
A calcium- and phospholipid-dependent protein kinase in soybean Reviewed

Honda C, Komatsu S, Hirano H.

Phytochemistry 35 1407 - 1411 1994
Protein Kinase activity and Insulin-binding Activity in Plant Basic 7S Globulin Reviewed

Komatsu S, Koshio O, Hirano H.

Biosci Biotech Biochem. 58 1705 - 1706 1994
A peptide that stimulates phosphorylation of the plant insulin-binding protein, Isolation, primary structure and cDNA cloning. Reviewed

Watanabe Y, Barbashov SF, Komatsu S, Hemmings AM, Miyagi M, Tsunasawa S, Hirano H.

Eur J Biochem. 224 167 - 172 1994
Protein kinase activity and protein phosphorylation in rice (Oryza sativa L.) leaf. Reviewed

Komatsu S, Hirano H.

Plant Sci. . 94 127 - 137 1993
Microsequence analysis of the N-terminally blocked proteins immobilized on polyvinylidene difluoride membrane by western blotting. Reviewed

Hirano H, Komatsu S, Kajiwara H, Takagi Y, Tsunasawa S.

Electrophoresis. 14 839 - 846 1993
A rice protein library: a data-file of rice proteins separated by two-dimensional electrophoresis. Reviewed

Komatsu S, Kajiwara H, Hirano H.

Theor Appl Genet. 86 935 - 942 1993
Sequence analysis of semidwarfism-related proteins in rice. Reviewed

Hirano H, Komatsu S, Nakamura A, tsunasawa S, Sakiyama F.

J Protein Chem. 11 425 - 426 1992
Soybean seed 34-kDa oil-body-associated protein separated by two-dimensional gel electrophoresis. Reviewed

Komatsu S, Kajiwara H, Hirano H.

Plant Sci. 81 21 - 27 1992
Rice seed globulin: a protein similar to wheat seed glutenin. Reviewed

Komatsu S, Hirano H.

Phytochemistry 31 3455 - 3459 1992
80 kDa mouse sperm protein as a substrate of protein kinase C. Reviewed

Komatsu S, Hirano H.

Chem Pharm Bull. 40 2780 - 2782 1992
Isolation and characterization of equinatoxins from the sea anemone Actinia equina L. Reviewed

Komatsu S, Furukawa K, Abe K, Hirano H, Ueda M.

Chem Pharm Bull. 40 2873 - 2875 1992
Deblocking and subsequent microsequence analysis of N alpha-blocked proteins electroblotted onto PVDF membrane. Reviewed

Hirano H, Komatsu S, Takakura H, Sakiyama F, Tsunasawa S.

J Biochem. 111 754 - 757 1992
Protein encoded by genes which are linked with semidwarfing gene in rice. Reviewed

Hirano H, nakamura A, Kikuchi F, Komatsu S.

JARQ. 25 225 - 229 1992
Enhancement of fertilization by micromanupuration. Reviewed

Suzuki S, Kurasawa S, Komatsu S.

Assist Repro Tech Androl. 1 269 - 285 1991
Microsequence analysis of Nα-blocked proteins electroblotted onto an immobilizing matrix from polyacrylamide gels. Reviewed

Hirano H, Komatsu S, Kajiwara H, Takakura A, Sakiyama F, Tsunasawa S.

Anal Sci. 7 941 - 944 1991
Rapid analysis for the conformation and the interaction of metalloproteins by high performance capillary electrophoresis. Reviewed

Kajiwara H, Komatsu S, Hirano H,

Anal Sci. . 7 265 - 268 1991
Plant basic 7 S globulin-like proteins have insulin and insulin-like growth factor binding activity. Reviewed

Komatsu S, Hirano H.

FEBS Lett. 294 210 - 212 1991
Structural homology between semidwarfism-related proteins and glutelin seed protein in rice (Oryza sativa L.). Reviewed

Hirano H, Komatsu S, Nakamura A, Kikuchi F, Kajiwara H, Tsunasawa S, Sakiyama F.

Theor Appl Genet. 83 153 - 158 1991
Protein kinase C activity and protein phosphorylation in mouse sperm. Reviewed

Endo Y, Komatsu S, Hirai M, Suzuki S, Shimizu N.

Acta Obst Gynec Jpn. 43 39 - 47 1991
Protein kinase C activity and protein phosphorylation in mouse eggs. Reviewed

Endo Y, Komatsu S, Hirai M, Shimizu N, Suzuki S.

J In Vitro Fert Embryo Transf. 8 160 - 166 1991
Demonstration of maturation-promoting and -inhibiting activities in mouse oocytes. Reviewed

Endo Y, Komatsu S, Suzuki S.

J In Vitro Fert Embryo Transf. 7 271 - 274 1990
Studies on in vitro 2-cell block mechanism in the mouse with special reference to cytoplasmic factors Reviewed

Komatsu S, Suzuki S, Kitai H, Endo Y, Fukasawa T, Iizuka R.

Prog Clin Biol Res. 296 322 - 326 1989
Characterization of proein kinase C in mouse subcellular localization and isozyme. Reviewed

Komatsu S, Endo Y, Hirai M, Shimuzu N, Suzuki S, Iizuka R.

J Soc Basic Repro Immunol. 4 93 - 96 1989
The role pf protein kinase C dependent phosphorylation in the mouse sperm acrosome reaction. Reviewed

Komatsu S, Endo Y, Suzuki S, Iizuka R, Hirai M, Shimuzu N.

J Soc Basic Repro Immunol. 3 74 - 80 1988
Analysis of cytoplasmic factors in developmental cleavage of mouse embryo. Reviewed

Suzuki S, Komatsu S, Kitai H, Endo Y, Iizuka R, Fukasawa T.

Cell Differ 24 133 - 138 1988
Mutagenesity of the antithyroid agent thiamazole. Reviewed

Hashimoto T, Takeuchi K, Ohno S, Komatsu S.

J Toxicol Sci 12 23 - 33 1987
Cytosolic analysis of dominant lethal effects of mitomycin C and ethyl methanesulfonate Reviewed

Hashimoto T, Takeuchi K, Ohno S, Komatsu S, Ohno Y.

J Toxicol Sci 12 33 - 45 1987
In vitro fertilization and development of ova obtained from female mice treated with aminopterin and mitomycin C Reviewed

Hashimoto T, Takeuchi K, Ohno S, Komatsu S.

J Toxicol Sci 11 321 - 333 1986
Cooperative inhibitory effect of follicular fluid and cAMP on hamster oocyte maturation. Reviewed

Suzuki S, Kurasawa S, Kitai H, Oba M, Komatsu S, Yoda K, Iizuka R.

Experiential 42 795 - 798 1986

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Books

Chapter 16: Current scenario and future trends of plant nano-interaction to mitigate abiotic stresses: a review Reviewed International journal

Farhat Yasmeen, Ghazala Mustafa, Hafiz Muhammad Jhanzab, Setsuko Komatsu（ Role： Joint author）

John Wiley & Sons Ltd 2023.10

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In: Impact of Engineered Nanomaterials in Genomics and Epigenomics, First Edition
Editor: Saura C. Sahu
Chapter 17: Proteomic and biochemical research for exploring the role of plant-derived smoke in food crop Reviewed International journal

Shafiq Ur Rehman, Amana Khatoon, Muhammad Mudasar Aslam, Muhammad Jamil, Setsuko Komatsu（ Role： Joint author）

Springer Nature Switzerland AG 2023.9

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In: Advanced Crop Improvement, Volume 2,
Editors: Aamit. Raina, Mohammad Rafiq Wani, Rafiul Amin Laskar, Nasya Tomlekova, Samiullah Khan
Chapter 5: Proteomics: aim at stress mitigation in soybean under flooding Reviewed International journal

Ghazala Mustafa, Setsuko Komatsu（ Role： Joint author）

CRC Press 2023.5

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In: Climate Change and Legumes Stress Mitigation for Sustainability and Food Security
Editors: Mohammad Zabed Hossain, Hossain Md Anawar, Doongar R. Chaudhary
Harnessing cytokinin biology in crop biofortofication and enhanced food security Reviewed International journal

Santosh Kumar Gupta, Ashok Kumar Nadda, Shabana Bibi, Jitender Singh, Dinesh Kumar, Setsuko Komatsu, Jyoti Mathur（ Role： Joint author）

Frontiers Media SA 2023.4

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Published in Frontiers in Genetics
Plant Proteomic Research 4.0 Reviewed International journal

Chen S, Komatsu S（ Role： Supervisor (editorial)）

MDPI 2022.4

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About plant proteomic research, 3 reviews and 9 original articles were included.
Plant Proteomic Research 3.0 Reviewed International journal

Komatsu S. Jorrin-Novo J.（ Role： Edit）

MDPI 2021.7

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About plant proteomic research, 4 reviews and 19 original articles were included.
Plant proteomics Reviewed International journal

Setsuko Komatsu, Ghazaka Mustafa（ Role： Joint author , Chapter 3）

CABI International 2023.1

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In: Plant Omics, Editors: Hajime Ohyanagi, Eiji Yamamoto, Ai Kitazumi, Kentaro Yano
Proteomics of plant-nanoparticle interaction mechanism Reviewed International journal

Ghazala Mustafa, Setsuko Komatsu（ Role： Joint author , Chapter 3）

Springer Nature Singapore Pte Ltd. 2022.5

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In: Plant and Nanoparticles, Editors: Jen-Tsung Chen
Visualization scheme for the analyses of proteomics, metabolomics, and transcriptomics data on the promotive effect of plant-derived smoke on flooding-stressed soybean. Reviewed International journal

Katsumi Sakata, Hiroyuki Imai, Wei Zhu, Jingkui Tian, Matsuo Uemura, Setsuko Komatsu（ Role： Joint author , Chapter 14）

Discovery Publishing House Pvt. Ltd. 2022.4

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In: Plant Proteomics: Concept and Applications, Editors: Murtaza Abid, M.M. Abid Ali Khan, Amber Hasan, Ratna Katiyar
Plant Proteomic Research 2.0

Komatsu S（ Role： Joint author）

MDPI 2019.4
Proteomics in Food Science (Proteomics of soybean plants)

Colgrave M (Hashiguchi A, Komatsu S)（ Role： Joint author）

Elsevier 2017
World Congress of International Plant Proteomics Organization

Agrawal G, Carpenter S, Komatsu S, Thelen J, Hajduch M, Job D（ Role： Joint author）

Journal of Proteomics 2017
Methods in Enzymology: Proteomics in Biology Part A & B (Posttranslational modifications and plant-environment interaction)

Shulla AK (Hashiguchi A, Komatsu S)（ Role： Joint author）

Elsevier 2017
Food Crop Proteomics

Komatsu S, Jorrin-Novo J.（ Role： Joint author）

Journal of Proteomics 2016
Plant Proteomic Research

Komatsu S, Hossain Z（ Role： Joint author）

MDPI 2016
Agricultural Proteomics (Proteomics of flooding-stressed plants.)

Salekdeh GH (Khan MN, Komatsu S.)（ Role： Joint author）

Springer 2016
Agricultural Proteomics (Proteomic analysis of crop plants under low temperature: A review of cold responsive proteins.)

Salekdeh GH (Gharechahi J, Sharifi G, Komatsu S, Salekedh GH)（ Role： Joint author）

Springer 2016
Agricultural Bioinformatics (Mining knowledge from omics data.)

P.B. Kavi Kishor (Sakata K, Nakamura T, Komatsu S)（ Role： Joint author）

Springer 2014
Plant Proteomics

Komatsu S, Hossain Z.（ Role： Joint author）

MDPI 2014
Application of Proteomics for Improvement in Crop Protection/Artificially Regulation

Komatsu S, Mock HP, Yang P.（ Role： Joint author）

Frontiers in Plant Science 2014
Plant proteomics Reviewed International journal

Setsuko Komatsu, Ghazaka Mustafa（ Role： Joint author , Chapter 3）

CABI International 2013.1

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In: Plant Omics, Editors: Hajime Ohyanagi, Eiji Yamamoto, Ai Kitazumi, Kentaro Yano
Agricultural and environmental proteomics

Komatsu S, Hynes P（ Role： Joint author）

Journal of Proteome Research 2013
Plant Proteomics. Methods and Protocols

Jorrin-Novo J, Komatsu S.（ Role： Joint author）

Humana Press (Methods in Molecular Biology) 2013
Proteomics in Foods: Principles and Applications, Food Microbiology and Food Safety 2 (Proteomics and applications to food science in rice.)

F.Toldra, LML. Nollet (Yang P, Nouri MZ, Komatsu S)（ Role： Joint author）

Springer Science +Business Media New York 2013
Frontiers in Agriculture Proteome Research: Contribution of Proteomics technology in agricultural sciences

Mock H-P, Wang Z-Y, Komatsu S.（ Role： Joint author）

NARO 2012
Plant Proteomics

Whitelegge JP, Komatsu S, Jorrin-Novo J.（ Role： Joint author）

Phytochemistry 2012
Microbial Proteomics and Plant Proteomics

Domont G, Komatsu S（ Role： Joint author）

Journal of Proteome Research 2012
Soybean: Molecular Aspects of Breeding (Proteomics approach for identifying abitic stress responsive proteins in soybean.)

Sudaric A (Nouri MZ, Toorchi M, Komatsu S)（ Role： Joint author）

InTech 2011
Heavy Metal Detoxication (Organellar proteimics: A hugh-throughput approach for better understanding of heavy metal accumulation and detoxificatuion in plants)

I. Sherameti, A. Varma (Ahsan N, Lee BH, Komatsu S)（ Role： Joint author）

Springer-Verlag Berlin Heidelberg 2011
Rice Functional Genomics （Rice proteomics: A step towards functional analysis of the rice genome）

N.M.Upadhyaya, E.S.Dennis (S. Komatsu)（ Role： Joint author）

ASAP 2007
Plant Nutrition for Sustainable Food Production and Environment (Analysis of protein in low-phosphorus-adapted ruzigrass (Brachiaria ruziziensis))

T.Ando (T.Masuda, T.Yonayama, K.Kataoka, S.Komatsu)（ Role： Joint author）

Kluwer Academic Publishers 1997
Plant Tissue Culture and Gene Manipulation for Breeding and Formation of Phytochemicals (Structure and function of plant basic 7S globulin-like proteins.)

K.Oono (H.Hirano, S.Komastu, H.Kajiwara, Y.Watanabe)（ Role： Joint author）

National Institute of Agrobiological Sciences 1992
Advances in Assisted Reproductive Technologies (Gametes-and embryo-oviduct interactions.)

S.Mashiach (S.Suzuki, Y.Oshiba, Y.Endo, S.Komatsu, H.Kitai, R.Iizuka)（ Role： Joint author）

Pleum Press 1990
Future Aspects in Human In vitro Fertilization. (Experimental approaches to the preimplantation ova with emphasis on cytoplasmic factors, cell cycle and intercellular connections)

W. Feichinger, P. Kemeter (S.Suzuki, H.Kitai, S.Kurasawa, S.Komatsu, R.Iizuka)（ Role： Joint author）

Springer Verlag 1987

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MISC

Plant proteomic research for improvement of food crops under stresses: a review Invited Reviewed International coauthorship International journal

Mustafa G, Komatsu S

Mol Omics 17 860 - 880 2021.12
Morphophysiological and proteomic responses on plants of irradiation with electromagnetic waves Invited Reviewed International coauthorship International journal

Zhong Z, Wang X, Yin X, Tian J, Komatsu S

Int J Mol Sci 22 12239 2021.11
Plant Proteomic Research 5.0: From Data to Insights Invited Reviewed

Setsuko Komatsu, Michelle L. Colgrave

Int J Mol Sci 24 258 2023.1
Plant Proteomic Research 4.0: Frontiers in Stress Resilience Reviewed International coauthorship International journal

Chen S, Komatsu S

Int J Mol Sci 22 13362 2021.12
Proteomic analysis to understand mechanism in crop against nanoparticles

Yasmeen F, Komatsu S.

Comprehensive Foodomics 1 718 - 729 2021.3
Plant-derived smoke affects biochemical mechanism on plant growth and seed germination

Khatoon A, Rehman SU, Aslam MM, Jamil M, Komatsu S.

Int J Mol Sci. 21 ( 20 ) 7760 2020.10
Proteomic techniques for the development of flood-tolerant soybean

Wang X, Komatsu S.

Int J Mol Sci. 21 ( 20 ) 7497 2020.10
Multi-omics strategies for decoding smoke-assisted germination pathways and seed vigour

Bose U, Juhasz A, Broadbent JA, Komatsu S, Colgrave ML.

Int J Mol Sci. 21 ( 20 ) 7512 2020.10
Chapter 9-Isolation, purity assessment, and proteomic analysis of endoplasmic reticulum

Wang X, Komatsu S.

Methods Mol Biol. 2139 117 - 131 2020.7
Nanoparticles: synthesis, morphophysiological effects, and proteomic responses of crop plants

Hossain Z, Yasmeen F, Komatsu S.

Int J Mol Sci. 21 ( 9 ) 3056 2020.4
Gel electrophoresis-based plant proteomics: Past, present, and future.

Jorrin-Novo JV, Komatsu S, Sanchez-Lucas R, Rodriguez de Francisco LE.

J Proteomics 2019.3
Isolation, Purity assessment, and proteomic analysis of nuclei.　

Komatsu S.

Methods Mol Biol. 1693 81 - 90 2018.4
Subcellular proteomics: application to elucidation of flooding-response mechanisms in soybean.

Komatsu S, Hashiguchi A.

Proteomes 6 13 - 00 2018.4
Proteomic approaches to uncover the flooding and drought stress response mechanisms in soybean.

Wang X, Komatsu S.

J Proteomics 172 201 - 215 2018.4
Phosphoproteomics: protein phosphorylation in regulation of seed germination and plant growth.

Yin X, Wang X, Komatsu S.

Curr Protein Pept Sci. 19 401 - 412 2018.4
Improvement of soybean products through the response mechanism analysis using proteomic technique.

Wang X, Komatsu S.

Adv Food Nutr Res. 82 117 - 148 2017
Proteomic contributions to medicinal plant research: from plant metabolism to pharmacological action.

Hashiguchi A, Tian J, Komatsu S.

Proteomes. 5 35 - 00 2017
Comprehensive analysis of response and tolerant mechanisms in early-stage soybean at initial-flooding stress.

Yin X, Komatsu S.

J Proteomics 169 225 - 232 2017
nanoparticles mediated soybean response mechanism at morphological, physiological, and proteomic level.

Mustafa G, Komatsu S.

Current Proteomics 43 3 - 12 2017
Plant subcellular proteomics: Application for exploring optimal cell function in soybean.

Wang X, Komatsu S.

J Proteomics. 143 45 - 56 2016
Plant nuclear proteomics for unraveling physiological function.

Yin X, Komatsu S.

N Biotechnol. 15 2008 - 2025 2016
Impact of post-translational modifications of crop proteins under abiotic stress.

Hashiguchi A, Komatsu S.

Proteomes 4 42 - 00 2016
Toxicity of heavy metals and metal-containing nanoparticles on plants.

Mustafa G, Komatsu S.

Biochim Biophys Acta. 1864 932 - 944 2016
Proteomics of important food crops in the Asia Oceania Region: Current status and future perspectives.

Chakraborty S, Salekdeh GH, Yang P, Woo SH, Chin CF, Gehring C, Haynes PA, Mirzaei M, Komatsu S.

J Proteome Res. 14 2723 - 2744 2015
Plant responses to nanoparticle stress.

Hossain Z, Mustafa G, Komatsu S.

Int J Mol Sci. 16 26644 - 26653 2015
Abiotic stresses: insight into gene regulation and protein expression in photosynthetic pathways of plants.

Nouri MZ, Moumeni A, Komatsu S.

Int J Mol Sci. 16 20392 - 20416 2015
Proteomic techniques and management of flooding tolerance in soybean.

Komatsu S, Tougou M, Nanjo Y.

J Proteome Res. 14 3768 - 3778 2015
Omics’ techniques and their use to identify how soybean responds to flooding.

Komatsu S, Sakata K, Nanjo Y.

J Anal Sci Tech. 6 9 - 00 2015
Western blotting using PVDF membranes and its downstream applications.

Komatsu S.

Methods Mol Biol. 1312 227 - 236 2015
Plant proteomics: from genome sequencing to proteome databases and repositories.

Sakata K, Komatsu S.

Methods Mol Biol. 1072 29 - 42 2014
Root Proteomics.

Nouri MZ, Komatsu S

Root Enginee Soil Biol 40 407 - 421 2014
Wheat proteomics: proteome modulation and abiotic stress acclimation.

Komatsu S, Kamal AH, Hossain Z.

Front Plant Sci. 5 684 - 00 2014
Ultraweak photon emission and proteomics analyses in soybean under abiotic stress.

Komatsu S, Kamal AH, Makino T, Hossain Z.

Biochim Biophys Acta. 1844 1208 - 1218 2014
Soybean proteomics.

Hossain Z, Komatsu S.

Methods Mol Biol. 1072 315 - 331 2014
Potentiality of soybean proteomics in untying the mechanism of flood and drought stress tolerance.

Hossain Z, Komatsu S.

Proteomes 2 107 - 127 2014
Soybean proteomics for unraveling abiotic stress response mechanism.

Hossain Z, Khatoon A, Komatsu S.

J Proteome Res. 12 4670 - 4684 2013
Organ-specific proteome analysis for identification of abiotic stress response mechanism in crop.

Komatsu S, Hossain Z.

Front Plant Sci. 4 71 - 00 2013
Proteomic insights into intra- and intercellular plant-bacteria symbiotic association during root nodule formation.

Salavati A, Shafeinia A, Klubicova K, Bushehri AA, Komatsu S.

Front Plant Sci. 4 28 - 00 2013
Plant-bacterium interactions analyzed by proteomics.

Afroz A, Zahur M,

Front Plant Sci. 4 21 - 00 2013
Cell wall proteomics of crops.

Komatsu S, Yanagawa Y.

Front Plant Sci. 4 17 - 00 2013
Crop and medicinal plants proteomics in response to salt stress.

Aghaei K, Komatsu S.

Front Plant Sci. 4 8 - 00 2013
Contribution of proteomic studies towards understanding plant heavy metal stress response.

Hossain Z, Komatsu S.

Front Plant Sci. 3 310 - 00 2013
Subcellular protein overexpression to develop abiotic stress tolerant plants.

Nouri MZ, Komatsu S.

Front Plant Sci. 4 2 - 00 2013
Omics' techniques for identifying flooding-response mechanisms in soybean.

Komatsu S, Shirasaka N, Sakata K.

J Proteomics 93 169 - 178 2013
Proteomics analysis of drought- stressed plant.

Mohammadi PP, Nouri MZ, Komatsu S.

Current Proteomics 9 232 - 244 2012
Proteomics analysis of flooding-stressed plant.

Khatoon A, Komatsu S, Rehan S.

Current Proteomics 9 232 - 244 2012
Promoting agriculture proteome research activities in the Asia and Oceania region.

Komatsu S, Haynes PA, Salekdeh GH.

J Proteome Res. 11 1461 - 1462 2012
Plant cell organelle proteomics in response to abiotic stress.

Hossain Z, Nouri MZ, Komatsu S.

J Proteome Res. 11 37 - 48 2012
Proteomics techniques for the development of flood tolerant crops.

Komatsu S, Hiraga S, Yanagawa Y.

J Proteome Res. 11 68 - 78 2012
Changes in the plant proteome resulting from salt stress: toward the creation of salt-tolerant crops?

Sobhanian H, Aghaei K, Komatsu S.

J Proteomics. 74 1323 - 1337 2011
Proeomics application of crops on the context of climatic changes.

Hashiguchi A, Ahsan N, Komatsu S.

Food Res Int. 43 1803 - 2812 2010
Plant organelle proteomics: approach and applications.

Komatsu S, Ahsan N, Mitsui T, Noza Y.

Res Commun Biochem Cell Mol Biol. 13 71 - 118 2010
Quantitative proteomic analyses of crop seedlings subjected to stress conditions; a commentary.

Nanjo Y, Nouri MZ, Komatsu S.

Phytochemistry. 72 1263 - 1272 2010
Recent developments in the application of proteomics to the analysis of plant responses to heavy metals.

Ahsan N, Renaut J, Komatsu S.

Proteomics. 10 2602 - 2621 2009
Western blotting/Edman sequencing using PVDF membrane.

Komatsu S.

Methods Mol Biol. 536 163 - 171 2009
Soybean proteomics and its application to functional analysis.

Komatsu S, Ahsan N.

J Proteomics. 72 325 - 326 2009
Research on the rice proteome: The contribution of proteomics technology in the creation of abiotic stress-tolerant plants.

Komatsu S.

Rice 1 154 - 165 2008
Plasma membrane proteome in Arabidopsis and rice.

Komatsu S.

Proteomics 6 4137 - 4145 2008
Crop proteomics and its application to biotechnology.

Komatsu S.

J Proteome Res. 7 2183 - 2184 2008
Artificial controlling the morphogenesis by altering plant function based on elucidation of molecular mechanism for phytohormone signal transduction.

Komatsu S.

Trans Plant J. 1 250 - 255 2007
Edman sequencing of proteins from 2D gels.

Komatsu S.

Methods Mol Biol. 355 211 - 217 2007
Soybean proteomics.

Komatsu S, Toorchi, Yukawa K.

Current Proteomics. 4 182 - 186 2007
The proteomics of plant cell membranes.

Komatsu S, Konishi H, Hashimoto M.

J Exp Bot. 58 103 - 112 2007
Extraction of nuclear proteins.

Komatsu S.

Methods Mol Biol. 355 73 - 77 2007
Crop proteomics: aim at sustainable agriculture of tomorrow.

Salekdeh GH, Komatsu S.

Proteomics 7 2976 - 2996 2007
Plant Proteomics database: Their status in 2005.

Komatsu S.

Curr Bioinform 1 33 - 36 2006
Cereal proteomics.

S. Komatsu

Plant Proteomics 28 129 - 149 2006
Identification of rice root proteins regulated by gibberelin using proteome analysis.

S. Komatsu, H. Konishi

Advances in Plant Physiology 9 297 - 312 2006
Update and challenges on proteomics in rice.

Komatsu S, Yano H.

Proteomics 6 4057 - 4068 2006
Functional characterization of gibberellin-regulated genes in rice using microarray system.

Jan A, Komatsu S.

Genomics Proteomics Bioinformatics 4 137 - 144 2006
Rice proteome database: a step toward functional analysis of the rice genome I.

Komatsu S.

Plant Mol Biol. 59 179 - 190 2005
-Rice proteomics: A step toward functional analysis of stress responses.

Komatsu S.

Current Proteomics 2 325 - 333 2005
Proteome analysis of rice root proteins regulated by gibberellin.

Komatsu S, Konishi H.

Genomics Proteomics Bioinformatics. 3 132 - 142 2005
Rice proteome analysis: a step toward functional analysis of the rice genome II.

Komatsu S, Tanaka N.

Proteomics 5 938 - 949 2005
Microarray and proteomic analysis of brassinosteroid- and gibberellin-regulated gene and protein expression in rice.

Yang G, Komatsu S.

Genomics Proteomics Bioinformatics. 2 77 - 83 2004
Function of calreticurin in rice.

Sharma A, Komatsu S.

Recent Res Dev Biochem. 5 103 - 113 2004
Phosphoproteomics: Recent advancement and future prospect in rice phosphoproteome research.

Khan M, Komatsu S.

Recent Res Dev Plant Sci. 2 73 - 83 2004
Rice proteomics: recent developments and analysis of nuclear proteins.

Khan M, Komatsu S.

Phytochemistry. 65 1671 - 1681 2004
Brassinosteroid signaling: From perception to gene expression.

Yang G, Komatsu S.

Recent Res Dev Plant Cell Physiol. 1 7 - 17 2003
Rice proteomics: a step toward functional analysis of the rice genome

Komatsu S, Konishi H, Shen S, Yang G.

Mol Cell Proteomics 2 2 - 10 2003
Role of the global signaling molecule jasmonic acid in rice self-defense machenism: proteomic approach towards identifying inducible pathogenesis-related proteins and early signaling events in jasmonate-treated rice seedling tissues

Rakwal R, Kaku H, Yang G, Sharma A, Komatsu S.

Recent Res Dev Biochem, 3 141 - 155 2002
Cyclic AMP-promoted protein phosphorylation in jasmonic acid-treated rice seedlings

Rakwal R, Komatsu S.

Recent Res Dev Agr Biol Chem. 4 1 - 8 2000
Cold suppressed calcium-dependent protein kinase and its regulation by abscisic acid in germinating rice seeds

Li W, Komatsu S.

Recent Res Dev Agr Biol Chem. 4 35 - 43 2000
On-membrane deblocking of proteins

Hirano H, Komatsu S, Tsunasawa S.

Methods Mol Biol. 64 285 - 292 1997
Apprication of microtechniques for the research to ovum maturation mechanism

S.Suzuki, H.Kitai, S.Kurasawa, S.Komatsu, R.Iizuka雄　

Symposia Publications from Ravan Press 48 239 - 243 1988
Cytoplasmic factors in oocyte maturation, fertilization, and early development

Suzuki S, Kitai H, Endo Y, Kurasawa S, Komatsu S, Ohba M, Iizuka R.

Ann N Y Acad Sci. 541 349 - 366 1988

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