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37 results on '"Morikawa, Hiromichi"'

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1. Atmospheric nitrogen dioxide suppresses the activity of phytochrome interacting factor 4 to suppress hypocotyl elongation.

2. Nitrogen Dioxide at Ambient Concentrations Induces Nitration and Degradation of PYR/PYL/RCAR Receptors to Stimulate Plant Growth: A Hypothetical Model.

3. Nitrate, but not nitrite, derived from nitrogen dioxide accumulates in Arabidopsis leaves following exposure to 15 N-labeled nitrogen dioxide.

4. Dual nitrogen species involved in foliar uptake of nitrogen dioxide in Arabidopsis thaliana.

5. A novel role for PsbO1 in photosynthetic electron transport as suggested by its light-triggered selective nitration in Arabidopsis thaliana.

6. Selective nitration of PsbO1, PsbO2, and PsbP1 decreases PSII oxygen evolution and photochemical efficiency in intact leaves of Arabidopsis.

7. Selective nitration of PsbO1 inhibits oxygen evolution from isolated Arabidopsis thylakoid membranes.

8. Light-triggered selective nitration of PsbO1 in isolated Arabidopsis thylakoid membranes is inhibited by photosynthetic electron transport inhibitors.

9. Differential abilities of nitrogen dioxide and nitrite to nitrate proteins in thylakoid membranes isolated from Arabidopsis leaves.

10. Nitration is exclusive to defense-related PR-1, PR-3 and PR-5 proteins in tobacco leaves.

11. 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.

12. Kinematic evidence that atmospheric nitrogen dioxide increases the rates of cell proliferation and enlargement to stimulate leaf expansion in Arabidopsis.

13. Nitrogen dioxide regulates organ growth by controlling cell proliferation and enlargement in Arabidopsis.

14. Nitrogen dioxide is a positive regulator of plant growth.

15. Nitrogen dioxide accelerates flowering without changing the number of leaves at flowering in Arabidopsis thaliana.

16. Differential responses of Arabidopsis thaliana accessions to atmospheric nitrogen dioxide at ambient concentrations.

17. X-ray crystal structure of a mutant assimilatory nitrite reductase that shows sulfite reductase-like activity.

18. The reductive reaction mechanism of tobacco nitrite reductase derived from a combination of crystal structures and ultraviolet-visible microspectroscopy.

19. Structure-function relationship of assimilatory nitrite reductases from the leaf and root of tobacco based on high-resolution structures.

20. Mutants of Ficus pumila produced by ion beam irradiation with an improved ability to uptake and assimilate atmospheric nitrogen dioxide.

21. Molecular characterization of atmospheric NO2-responsive germin-like proteins in azalea leaves.

22. Nitrogen dioxide at an ambient level improves the capability of kenaf (Hibiscus cannabinus) to decontaminate cadmium.

23. The RNAi-mediated silencing of xanthine dehydrogenase impairs growth and fertility and accelerates leaf senescence in transgenic Arabidopsis plants.

24. Differential assimilation of nitrogen dioxide by 70 taxa of roadside trees at an urban pollution level.

25. Atmospheric nitrogen dioxide gas is a plant vitalization signal to increase plant size and the contents of cell constituents.

26. 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.

27. Novel metabolism of nitrogen in plants.

28. Nocturnal uptake and assimilation of nitrogen dioxide by C3 and CAM plants.

29. 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.

30. Three distinct Arabidopsis hemoglobins exhibit peroxidase-like activity and differentially mediate nitrite-dependent protein nitration.

31. Differential expression of the nitrite reductase gene family in tobacco as revealed by quantitative competitive RT-PCR.

32. Formation of unidentified nitrogen in plants: an implication for a novel nitrogen metabolism.

33. Screening and genetic manipulation of plants for decontamination of pollutants from the environments.

35. Basic processes in phytoremediation and some applications to air pollution control.

36. Functional complementation in yeast reveals a protective role of chloroplast 2-Cys peroxiredoxin against reactive nitrogen species.

37. Arabidopsis glutathione-dependent formaldehyde dehydrogenase is an S-nitrosoglutathione reductase.

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