NICOTIANAMINE-IRON (NA-FE) IS REQUIRED FOR THE FORMATION OF NORMAL INFLORESCENCE AND SEEDS' MATURATION
スポンサーリンク
概要
著者
-
Takahashi Michiko
Department Of Global Agricultural Sciences Graduate School Of Agricultural And Life Science The Univ
-
Mori Satoshi
Lab Plant. Mol. Physiol. Tokyo Univ. Fac. Pharmaceutical. Science. Nagoya City Univ.
-
TAKAHASHI Michiko
CREST
-
NAKAGAWA Takuya
Dept. Appl Biol Chem, Tokyo Univ.
-
NEGISHI Takashi
Dept. Appl Biol Chem, Tokyo Univ.
-
TERADA Yasuko
Dept. Appl Chem, Science Univ of Tokyo
-
NAKAI Izumi
Dept. Appl Chem, Science Univ of Tokyo
-
YOSHIMURA Eturo
Dept. Appl Biol Chem, Tokyo Univ.
-
MORI Satoshi
CREST.
-
Nakai Izumi
Dept. Appl Chem Science Univ Of Tokyo
-
Terada Yasuko
Dept. Appl Chem Science Univ Of Tokyo
-
Mori S
Meijo Univ. Aichi Jpn
-
Yoshimura Eturo
Dept. Appl Biol Chem Tokyo Univ.
-
Negishi Takashi
Dept. Appl Biol Chem Tokyo Univ.
-
Nakagawa Takuya
Dept. Appl Biol Chem Tokyo Univ.
-
KISHINISHIZAWA Naoko
Dept. Appl Biol Chem, Tokyo Univ.
-
Kishinishizawa Naoko
Dept. Appl Biol Chem Tokyo Univ.
-
Takahashi Michiko
Lab Plant. Mol. Physiol. Tokyo Univ. Fac. Pharmaceutical. Science. Nagoya City Univ.
関連論文
- Comparison of the functions of the barley nicotianamine synthase gene HvNAS1 and rice nicotianamine synthase gene OsNAS1 promoters in response to iron deficiency in transgenic tobacco(Plant Nutrition)
- Transgenic rice lines that include barley genes have increased tolerance to low iron availability in a calcareous paddy soil(Plant Nutrition)
- Detection and Characterization of Protein Kinases in Rice Phloem Sap : ENVIRONMENTAL AND STRESS RESPONSES : PROTEINS, ENZYMES AND METABOLISM
- Synthesis of nicotianamine and deoxymugineic acid is regulated by OsIRO2 in Zn excess rice plants(Plant Nutrition)
- How are metal nutrients transported to the embryo in rice plant?
- Overcoming Fe deficiency in guava (Psidium guajava L.) by co-situs application of controlled release fertilizers(Fertilizer and Soil Amendments)
- ^Mn translocation in barley monitored using a positron-emitting tracer imaging system(Plant Nutrition)
- 9-22 Characterization of Glutathione transporter in rice
- Iron deficiency enhances cadmium uptake and translocation mediated by the Fe^ transporters OsIRT1 and OsIRT2 in rice(Plant Nutrition)
- Metabolic Engineering of Saccharomyces cerevisiae Producing Nicotianamine : Potential for Industrial Biosynthesis of a Novel Antihypertensive Substrate
- Construction of Artificial Promoters Highly Responsive to Iron Deficiency
- Directed Evolution of Yeast Ferric Reductase to Produce Plants with Tolerance to Iron Deficiency in Alkaline Soils
- A Rice FRD3-Like (OsFRDL1) Gene Is Expressed in the Cells Involved in Long-Distance Transport
- Diurnal Changes in the Expression of Genes That Participate in Phytosiderophore Synthesis in Rice
- H_2^O Translocation in Rice Was Enhanced by 10 μM 5-Aminolevulinic Acid as Monitored by Positron Emitting Tracer Imaging System (PETIS)
- Analysis of Upstream Region of Nicotianamine Synthase Gene from Arabidopsis thaliana : Presence of Putative ERE-like Sequence(Biochemistry & Molecular Biology)
- The Expression of a Barley HvNAS1 Nicotianamine Synthase Gene Promoter-gus Fusion Gene in Transgenic Tobacco is Induced by Fe-deficiency in Roots(Biochemistry & Molecular Biology)
- Analysis of Transgenic Rice Containing Barley Nicotianamine Synthase Gene
- ID17,A NEW IRON-REGULATED ABC TRANSPORTER FROM BARLEY ROOTS, LOCALIZED TO THE TONOPLAST
- ANALYSIS OF UPSTREAM REGION OF NICOTIANAMINE SYNTHASE GENES FROM Arabidopsis thaliana (II)
- Protein Phosphorylation in the Sieve Tubes of Rice Plants
- Effects of Anion Channel Blockers on Xylem Nitrate Transport in Barley Seedlings
- Absorption and Translocation of ^Fe, ^Mn and ^Zn Visualized by PETIS in Barley and Rice
- Visualization of ^O-Water Flow in Tomato and Rice in the Light and Dark Using a Positron-Emitting Tracer Imaging System (PETIS)
- Analysis of ^NH_4^+ uptake, translocation and retranslocation in rice by PETIS (Positron Emitting Tracer Imaging System)
- Absorption and Translocation of ^Mn Visualized by PETIS in Barley and Tomato
- Translocation of ^C-Methionine Visualized by Positron Emitting Tracer Imaging System (PETIS) in Barley
- Importance of contact between rice roots and co-situs applied fertilizer granules on iron absorption by paddy rice in a calcareous paddy soil(Fertilizers and Soil Amendments)
- Establishment of a Cell-Free System for the Biosynthesis of Nicotianamine
- CHARACTERIZATION OF TWO PROTEINS INDUCED BY IRON DEFICIENCY IN BARLEY ROOTS
- STUDY ON THE BIOSYNTHETIC PATHWAY OF MUGINEIC ACID IN Fe-DEFICIENT BARLEY ROOTS V : PURIFICATION OF NICOTIANAMINE AMINOTRANSFERASE
- Induction of Adenine Phosphoribosyltransferase (APRT) in Iron-deficient Barley Roots
- Biosynthetic Pathway of Phytosiderophores in Iron-Deficient Graminaceous Plants : Development of an Assay System for the Detection of Nicotianamine Aminotransferase Activity
- Development and Characterization of a Monoclonal Antibody to Phytosiderophores
- Cross-Reactivities of Anti-Nicotianamine Antibody with Mugineic Acid and Related Compounds
- Water (H_2 ^15O) Flow in Rice is Regulated by the Concentration of Nutrients as Monitored by Positron Multi-Probe System (PMPS)
- IN-VIVO IDENTIFICATION OF MUGINEIC ACID SYNTHASE GENE USING TRANSGENIC RICE
- Induction of the IDI1 Gene in Fe-Deficient Barley Roots: A Gene Encoding a Putative Enzyme That Catalyses the Methionine Salvage Pathway for Phytosiderophore Production
- ISOLATION OF A cDNA FOR AN FE-DEFICIENCY INDUCIBLE LIPOXYGENASE ISOFORM FROM BARLEY
- ANALYSIS OF UPSTREAM REGION OF NICOTIANAMINE SYNTHASE GENES FROM Arabidopsis thaliana
- TRANSGENIC RICE AND TOBACCO CONTAINING CaMV35S-NICOTIANAMINE SYNTHASE GENE (HVNAS1)
- THE TOBACCO OVEREXPRESSED WITH NAAT-A GENE SHOWED INTERCOSTAL CHLOROSIS
- Cloning of Nicotianamine Synthase Genes from Arabidopsis thaliana
- Time Course Study of Aluminum-Induced Callose Formation in Barley Roots as observed by Digital Microscopy and Low-Vacuum Scanning Electron Microscopy
- Presence of Nicotianamine Synthase Isozymes and Their Homologues in the Root of Graminaceous Plants
- Conforcal Images of Adenine Phosphoribosyltransferase (APRT) Fused to sGFP in Plant Cells
- THE FUNCTIONAL ANALYSIS OF BARLEY SFD1 GENE, A SUPPRESSOR OF YEAST COPPER UPTAKE MUTANT ctr 1
- CLONING AND CHARACTERIZATION OF NICOTIANAMINE SNTHASE GENES FROM Arabidopsis thaliana
- CLONING OF NICOTIANAMINE SYNTHASE GENES (nas) FROM GRAMINACEOUS PLANTS
- DEVELOPMENT OF THE TRANSGENIC RICE OVEREXPRESSING NICOTIANAMINE AMINOTRANSFERASE
- Characterizing Nicotianamine Aminotransferase : Improving Its Assay System and Details of the Regulation of Its Activity by Fe Nutrition Status
- THE FUNCTIONAL ANALYSIS OF SFD1 GENE, WHICH RESTORES THE MUTATION OF YEAST COPPER UPTAKE MUTANT ctr1
- STUDY ON THE BIOSYNTHETIC PATHWAY OF MUGINEIC ACID IN Fe-DEFICIENT BARLEY ROOTS VI : SEQUENCE AND EXPRESSION OF NICOTIANAMINE AMINOTRANSFERASE GENE
- Difference in Al Sensitivity between Seminal and Crown Roots of Rice Nursery Seedlings (Plant Nutrition)
- Co-situs Application of Controlled-Release Fertilizers to Alleviate Iron Chlorosis of Paddy Rice Grown in Calcareous Soil
- ^Fe Translocation in Barley as Monitored by a Positron-Emitting Tracer Imaging System (PETIS) : Evidence for the Direct Translocation of Fe from Roots to Young Leaves via Phloem
- A Highly Sensitive, Quick and Simple Quantification Method for Nicotianamine and 2'-Deoxymugineic Acid from Minimum Samples Using LC/ESI-TOF-MS Achieves Functional Analysis of These Components in Plants
- NICOTIANAMINE-IRON (NA-FE) IS REQUIRED FOR THE FORMATION OF NORMAL INFLORESCENCE AND SEEDS' MATURATION
- Highly Sensitive Quantitative Analysis of Nicotianamine Using LC/ESI-TOF-MS with an Internal Standard
- CHARACTERIAZATION AND ANALYSIS OF ROMATE DEHYDROGENASE GENE : SITE SPECIFIC EXPRESSION IN IRON-DEFICIENT BARLEY ROOT
- Analysis of the iron deficiency-responsive expression of lds2; The 5'-deletion analysis of the promoter in Tobacco