Phosphate transporters OsPHT1;9 and OsPHT1;10 are involved in phosphate uptake in rice
Copyright policy )Phosphate transporters OsPHT1;9 and OsPHT1;10 are involved in phosphate uptake in rice
AbstractWe characterized the function of two rice phosphate (Pi) transporters: OsPHT1;9 (OsPT9) and OsPHT1;10 (OsPT10). OsPT9 and OsPT10 were expressed in the root epidermis, root hairs and lateral roots, with their expression being specifically induced by Pi starvation. In leaves, expression of the two genes was observed in both mesophyll and vasculature. High‐affinity Km values for Pi transport of OsPT9 and OsPT10 were determined by yeast experiments and two‐electrode voltage clamp analysis of anion transport in Xenopus oocytes expressing OsPT9 and OsPT10. Pi uptake and Pi concentrations in transgenic plants harbouring overexpressed OsPT9 and OsPT10 were determined by Pi concentration analysis and 33P‐labelled Pi uptake rate analysis. Significantly higher Pi uptake rates in transgenic plants compared with wild‐type plants were observed under both high‐Pi and low‐Pi solution culture conditions. Conversely, although no alterations in Pi concentration were found in OsPT9 or OsPT10 knockdown plants, a significant reduction in Pi concentration in both shoots and roots was observed in double‐knockdown plants grown under both high‐ and low‐Pi conditions. Taken together, our results suggest that OsPT9 and OsPT10 redundantly function in Pi uptake.
- Cornell University United States
- Agricultural Research Service - Northeast Area United States
- Robert W. Holley Center for Agriculture & Health United States
- Zhejiang Ocean University China (People's Republic of)
- China Agricultural University China (People's Republic of)
Xenopus, Molecular Sequence Data, Saccharomyces cerevisiae, Plant Roots, Phosphates, Gene Expression Regulation, Plant, Animals, Phosphate Transport Proteins, Cloning, Molecular, Plant Proteins, Gene Expression Profiling, Biological Transport, Oryza, Hydrogen-Ion Concentration, Plants, Genetically Modified, Phenotype, Oocytes, RNA Interference, Plant Shoots
Xenopus, Molecular Sequence Data, Saccharomyces cerevisiae, Plant Roots, Phosphates, Gene Expression Regulation, Plant, Animals, Phosphate Transport Proteins, Cloning, Molecular, Plant Proteins, Gene Expression Profiling, Biological Transport, Oryza, Hydrogen-Ion Concentration, Plants, Genetically Modified, Phenotype, Oocytes, RNA Interference, Plant Shoots
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