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Shin-Ichi Miyazawa

Showing results (1-10 of 26) with videos related to

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Methods in Molecular Biology (Clifton, N.J.)|June 11, 2024
Measuring the Release of Ammonia from LeavesShin-Ichi Miyazawa
Journal of Experimental Botany|September 21, 2005
Stomatal development in new leaves is related to the stomatal conductance of mature leaves in poplar (Populus trichocarpaxP. deltoides)Shin-Ichi Miyazawa, Nigel J Livingston, David H Turpin
Oecologia|September 17, 2022
Effect of symbiotic N<sub>2</sub> fixation on leaf protein contents, protein degradation and nitrogen resorption during leaf senescence in temperate deciduous woody speciesRyo Tanabe, Shin-Ichi Miyazawa, Osamu Kitade, et al.
Journal of Experimental Botany|April 5, 2011
Lessons from engineering a single-cell C(4) photosynthetic pathway into riceMitsue Miyao, Chisato Masumoto, Shin-Ichi Miyazawa, et al.
Plant & Cell Physiology|January 11, 2014
Sites of action of elevated CO2 on leaf development in rice: discrimination between the effects of elevated CO2 and nitrogen deficiencyKoichi Tsutsumi, Masae Konno, Shin-Ichi Miyazawa, et al.
Tree Physiology|August 6, 2004
Relationships between light, leaf nitrogen and nitrogen remobilization in the crowns of mature evergreen Quercus glauca treesShin-Ichi Miyazawa, Arata Antonio Suzuki, Kosei Sone, et al.
Journal of Plant Research|February 13, 2020
Oxygen response of leaf CO<sub>2</sub> compensation points used to determine Rubisco specificity factors of gymnosperm speciesShin-Ichi Miyazawa, Hiroyuki Tobita, Tokuko Ujino-Ihara, et al.
Functional Plant Biology : FPB|July 22, 2020
Deactivation of aquaporins decreases internal conductance to CO<sub>2</sub> diffusion in tobacco leaves grown under long-term droughtShin-Ichi Miyazawa, Satomi Yoshimura, Yuki Shinzaki, et al.
Plant & Cell Physiology|June 22, 2014
Elevated CO2 decreases the Photorespiratory NH3 production but does not decrease the NH3 compensation point in rice leavesShin-Ichi Miyazawa, Kentaro Hayashi, Hirofumi Nakamura, et al.
Journal of Plant Research|March 23, 2026
Enzymatic and quantitative properties of Rubisco in C<sub>3</sub> herbaceous plants with early-spring persistent leaves and some alpine plantsSakiko Sugawara, Kana Ito, Shin-Ichi Miyazawa, et al.
Pageof 3

Showing results (1-10 of 26) with videos related to

Sort By:
Pageof 3
Methods in Molecular Biology (Clifton, N.J.)|June 11, 2024
Measuring the Release of Ammonia from LeavesShin-Ichi Miyazawa
Journal of Experimental Botany|September 21, 2005
Stomatal development in new leaves is related to the stomatal conductance of mature leaves in poplar (Populus trichocarpaxP. deltoides)Shin-Ichi Miyazawa, Nigel J Livingston, David H Turpin
Oecologia|September 17, 2022
Effect of symbiotic N<sub>2</sub> fixation on leaf protein contents, protein degradation and nitrogen resorption during leaf senescence in temperate deciduous woody speciesRyo Tanabe, Shin-Ichi Miyazawa, Osamu Kitade, et al.
Journal of Experimental Botany|April 5, 2011
Lessons from engineering a single-cell C(4) photosynthetic pathway into riceMitsue Miyao, Chisato Masumoto, Shin-Ichi Miyazawa, et al.
Plant & Cell Physiology|January 11, 2014
Sites of action of elevated CO2 on leaf development in rice: discrimination between the effects of elevated CO2 and nitrogen deficiencyKoichi Tsutsumi, Masae Konno, Shin-Ichi Miyazawa, et al.
Tree Physiology|August 6, 2004
Relationships between light, leaf nitrogen and nitrogen remobilization in the crowns of mature evergreen Quercus glauca treesShin-Ichi Miyazawa, Arata Antonio Suzuki, Kosei Sone, et al.
Journal of Plant Research|February 13, 2020
Oxygen response of leaf CO<sub>2</sub> compensation points used to determine Rubisco specificity factors of gymnosperm speciesShin-Ichi Miyazawa, Hiroyuki Tobita, Tokuko Ujino-Ihara, et al.
Functional Plant Biology : FPB|July 22, 2020
Deactivation of aquaporins decreases internal conductance to CO<sub>2</sub> diffusion in tobacco leaves grown under long-term droughtShin-Ichi Miyazawa, Satomi Yoshimura, Yuki Shinzaki, et al.
Plant & Cell Physiology|June 22, 2014
Elevated CO2 decreases the Photorespiratory NH3 production but does not decrease the NH3 compensation point in rice leavesShin-Ichi Miyazawa, Kentaro Hayashi, Hirofumi Nakamura, et al.
Journal of Plant Research|March 23, 2026
Enzymatic and quantitative properties of Rubisco in C<sub>3</sub> herbaceous plants with early-spring persistent leaves and some alpine plantsSakiko Sugawara, Kana Ito, Shin-Ichi Miyazawa, et al.
Pageof 3