115 results on '"Morikawa, Hiromichi"'
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2. Metabolism and Detoxification of Nitrogen Dioxide and Ammonia in Plants
3. Manipulation of Genes for Nitrogen Metabolism in Plants
4. Molecular Mechanism of the Metabolism of Nitrogen Dioxide as an Alternative Fertilizer in Plants
5. Transient Expression of Foreign Genes in Tissues of Arabidopsis thaliana by Bombardment-Mediated Transformation
6. Unidentified Nitrogen in the Metabolites of Nitrogen Dioxide in Plant Leaves
7. Is Nitrite Reductase Essential in the Metabolism of Nitrogen in Plants?
8. Analysis of the 5′-Upstream Region of the Chloroplast RNA Polymerase Gene (rpoB)
9. Nitrogen Dioxide at Ambient Concentrations Induces Nitration and Degradation of PYR/PYL/RCAR Receptors to Stimulate Plant Growth: A Hypothetical Model
10. Dual nitrogen species involved in foliar uptake of nitrogen dioxide in Arabidopsis thaliana
11. Nitrate, but not nitrite, derived from nitrogen dioxide accumulates in Arabidopsis leaves following exposure to 15N-labeled nitrogen dioxide
12. Protoplast Fusion
13. Chloroplast Transformation by Particle Bombardment
14. Transcriptional Regulation of Gene Members for Small Subunit of RuBisCO (rbcS) And Chlorophyll a/b-Binding Proteins (cab) in Arabidopsis Thaliana
15. A novel role for PsbO1 in photosynthetic electron transport as suggested by its light-triggered selective nitration inArabidopsis thaliana
16. Selective nitration of PsbO1, PsbO2, and PsbP1 decreases PSII oxygen evolution and photochemical efficiency in intact leaves of Arabidopsis
17. Selective nitration of PsbO1 inhibits oxygen evolution from isolated Arabidopsis thylakoid membranes
18. Light-triggered selective nitration of PsbO1 in isolated Arabidopsis thylakoid membranes is inhibited by photosynthetic electron transport inhibitors
19. Differential abilities of nitrogen dioxide and nitrite to nitrate proteins in thylakoid membranes isolated from Arabidopsis leaves
20. Nitration is exclusive to defense-related PR-1, PR-3 and PR-5 proteins in tobacco leaves
21. Kinematic evidence that atmospheric nitrogen dioxide increases the rates of cell proliferation and enlargement to stimulate leaf expansion in Arabidopsis
22. Dual selective nitration in Arabidopsis: Almost exclusive nitration of PsbO and PsbP, and highly susceptible nitration of four non-PSII proteins, including peroxiredoxin II E
23. Nitrogen dioxide accelerates flowering without changing the number of leaves at flowering inArabidopsis thaliana
24. Differential responses ofArabidopsis thalianaaccessions to atmospheric nitrogen dioxide at ambient concentrations
25. Nitrogen dioxide is a positive regulator of plant growth
26. Nitrogen dioxide regulates organ growth by controlling cell proliferation and enlargement inArabidopsis
27. X‐Ray Crystal Structure of a Mutant Assimilatory Nitrite Reductase That Shows Sulfite Reductase‐Like Activity
28. MUTANTS OFFICUS PUMILAPRODUCED BY ION BEAM IRRADIATION WITH AN IMPROVED ABILITY TO UPTAKE AND ASSIMILATE ATMOSPHERIC NITROGEN DIOXIDE
29. Structure–function relationship of assimilatory nitrite reductases from the leaf and root of tobacco based on high‐resolution structures
30. Air-Pollutant-Philic Plants for Air Remediation
31. The reductive reaction mechanism of tobacco nitrite reductase derived from a combination of crystal structures and ultraviolet-visible microspectroscopy
32. Prolonged exposure to atmospheric nitrogen dioxide increases fruit yield of tomato plants
33. Functional Analysis of Fusarium oxysporum Nitric Oxide Reductase Expressed in Plant Suspension-Cultured Cells
34. Two-component high-affinity nitrate transport system in barley: Membrane localization, protein expression in roots and a direct protein-protein interaction
35. Molecular characterization of atmospheric NO2-responsive germin-like proteins in azalea leaves
36. Erratum: Atmospheric nitrogen dioxide at ambient levels stimulates growth and development of horticultural plants
37. A Fungal Cytochrome P-450nor Confers Denitrifying Ability to Tobacco By-2 Cells
38. Nitrogen Dioxide at an Ambient Level Improves the Capability of Kenaf (Hibiscus Cannabinus) to Decontaminate Cadmium
39. Atmospheric nitrogen dioxide at ambient levels stimulates growth and development of horticultural plants
40. Genetic engineering of nitrite reductase gene improves uptake and assimilation of nitrogen dioxide by Rhaphiolepis umbellata (Thunb.) Makino
41. GMO research in Japan—the state of the art
42. Differential assimilation of nitrogen dioxide by 70 taxa of roadside trees at an urban pollution level
43. Atmospheric nitrogen dioxide gas is a plant vitalization signal to increase plant size and the contents of cell constituents
44. Nocturnal Uptake and Assimilation of Nitrogen Dioxide by C3 and CAM Plants
45. Novel Metabolism of Nitrogen in Plants
46. Tolerance to, and Uptake and Degradation of 2,4,6-Trinitrotoluene (TNT) are Enhanced by the Expression of a Bacterial Nitroreductase Gene in Arabidopsis thaliana
47. Attempted Reduction of 1,2,3‐Thiadiazole‐4‐carboxylates with Samarium/Iodine in Methanol. Unexpected Ring Enlargement to 1,2,5‐Trithiepan‐4,6‐dicarboxylates.
48. Phytoremediators from abandoned rice field
49. TJ1 is an orientation-independent transformation enhancer sequence
50. Effects of ion beam irradiation on the regeneration and morphology of Ficus thunbergii Maxim
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