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Graduate School Of Life Science Tohoku University | 論文
- Nitrous Oxide Emission and Microbial Community in the Rhizosphere of Nodulated Soybeans during the Late Growth Period
- Nitrous Oxide Emission and Microbial Community in the Rhizosphere of Nodulated Soybeans During the Late Growth Period
- The Excess Light Energy that is neither Utilized in photosynthesis nor Dissipated by Photoprotective Mechanisms Determines the Rate of Photoinactivation Photosystem II
- PB-44 Analysis of metabolic features of naturally-occurring aromatic compounds in Bradyrhizobium japonicum based on array and gene disruption(Metabolism/Chemical activity,Poster presentation B)
- Horizontal Transfer of Nodulation Genes in Soils and Microcosms from Bradyrhizobium japonicum to B. elkanii
- The effect of head motion on the accuracy of sound localization
- Specific Detection of Tomato Pathotype of Verticillium dahliae by PCR Assays
- Genome-wide expression profiling and identification of genes under the control of the DROOPING LEAF gene during midrib development in rice
- Community- and Genome-Based Views of Plant-Associated Bacteria : Plant-Bacterial Interactions in Soybean and Rice
- Copper Metallochaperones are Required for the Assembly of Bacteroid Cytochrome c Oxidase Which is Functioning for Nitrogen Fixation in Soybean Nodules
- Paralytic shellfish toxin profiles of different geographic populations of Gymnodinium catenatum (Dinophyceae) in Korean coastal waters
- Effect of Ascorbic Acid on the Chemiluminescence of Polyphenols
- A Transposon, Ping, is Integrated into Intron 4 of the DROOPING LEAF Gene of Rice, Weakly Reducing its Expression and Causing a Mild Drooping Leaf Phenotype
- Photosynthesis-nitrogen relationships in species at different altitudes on Mount Kinabalu, Malaysia
- Effect of elevated CO_2 levels on leaf starch, nitrogen and photosynthesis of plants growing at three natural CO_2 springs in Japan
- Plant responses to elevated CO_2 concentration at different scales : leaf, whole plant, canopy, and population
- Cold-Tolerant Crop Species Have Greater Temperature Homeostasis of Leaf Respiration and Photosynthesis Than Cold-Sensitive Species
- Contribution of Photosynthetic Electron Transport, Heat Dissipation, and Recovery of Photoinactivated Photosystem II to Photoprotection at Different Temperatures in Chenopodium album Leaves
- Interspecific difference in the photosynthesis-nitrogen relationship : patterns, physiological causes, and ecological importance
- A paradox of leaf-trait convergence : why is leaf nitrogen concentration higher in species with higher photosynthetic capacity?
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