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saccharum narenga/hypoxia
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Biotechnological approaches to creation of hypoxia and anoxia tolerant plants.
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The present work provides results of a number of biotechnological studies aimed at creating cell lines and entire plants resistant to anaerobic stress. Developed biotechnological approaches were based on earlier fundamental researches into anaerobic stress in plants, so "Introduction" briefly covers
Inhibition of oxygen release by anoxia in a C3-plant (Nicotiana tabacum cv. Wisconsin 38). Comparison with C4-plants.
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Tobacco leaves (Nicotiana tabacum var. Wisconsin 38) submitted to anaerobic conditions behave in a manner similar to that of maize, sugarcane, or sorghum leaves (C4-plants); more precisely, a lag time in O2 release is exhibited when the leaves are exposed to light after treatment in the dark under
Hypersensitivity pneumonitis: bagassosis.
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Pneumoconiosis from inorganic dusts is very common worldwide and has been studied by many experts in Taiwan. However, pneumoconiosis due to organic dusts, i.e. hypersensitivity pneumonitis, seems rather uncommon in Taiwan, and to our best knowledge there has been no related report so far. In this
Crosstalk between sugarcane and a plant-growth promoting Burkholderia species.
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Bacterial species in the plant-beneficial-environmental clade of Burkholderia represent a substantial component of rhizosphere microbes in many plant species. To better understand the molecular mechanisms of the interaction, we combined functional studies with high-resolution dual transcriptome
Regulation of assimilate import into sink organs: update on molecular drivers of sink strength.
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Recent developments have altered our view of molecular mechanisms that determine sink strength, defined here as the capacity of non-photosynthetic structures to compete for import of photoassimilates. We review new findings from diverse systems, including stems, seeds, flowers, and fruits. An
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