Over-expression of PIP2;5 aquaporin alleviates gas exchange and growth inhibition in poplars exposed to mild osmotic stress with polyethylene glycol |
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Authors: | Kapilan Ranganathan Janice E. K. Cooke Walid El Kayal Maria A. Equiza Maryamsadat Vaziriyeganeh Janusz J. Zwiazek |
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Affiliation: | 1.Department of Renewable Resources,University of Alberta,Edmonton,Canada;2.Department of Biological Sciences,University of Alberta,Edmonton,Canada;3.Department of Forestry and Wood Technology, Faculty of Agriculture,Alexandria University,Alexandria,Egypt |
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Abstract: | The effects of mild osmotic stress conditions on aquaporin-mediated water transport are not well understood. In the present study, mild osmotic stress treatments with 20 and 50 g L?1 polyethylene glycol 6000 (PEG) in Hoagland’s mineral solution were applied for 3 weeks under controlled environmental conditions to transgenic Populus tremula × Populus alba plants constitutively over-expressing a Populus PIP2;5 aquaporin and compared with the wild-type plants. The PEG treatments resulted in growth reductions and triggered changes in net photosynthesis, transpiration, stomatal conductance and root hydraulic conductivity in the wild-type plants. However, height growth, leaf area, gas exchange, and root hydraulic conductivity were less affected by the PEG treatments in PIP2;5-over-expressing poplar lines. These results suggest that water transport across the PIP2;5 aquaporin is an important process contributing to tolerance of mild osmotic stress in poplar. Greater membrane abundance of PIP2;5 was most likely the factor that was responsible for higher root hydraulic conductivity leading to improved plant water flux and, consequently, greater gas exchange and growth rates under mild osmotic stress conditions. The results also provide evidence for the functional significance of PIP2;5 aquaporin in water transport and its strong link to growth processes in poplar. |
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