AI Article Synopsis
- - The study investigates the effects of a specific aquaporin protein (SbPIP2) from the halophyte Salicornia brachiata on enhancing stress tolerance in transgenic plants under salt and drought conditions, finding improved performance in physiological and biochemical traits.
- - Transgenic plants that overexpress the SbPIP2 gene exhibited increased levels of osmolytes, antioxidants, and pigments, indicating a correlation with their enhanced resilience to water and salinity stress.
- - Additionally, these SbPIP2-overexpressing plants demonstrated superior photosynthetic efficiency compared to control plants, suggesting that targeting the SbPIP2 gene could be a viable strategy for developing crops that can withstand abiotic stresses.
Article Abstract
The present study aims to explore the potential of a plasma-membrane localized PIP2-type aquaporin protein sourced from the halophyte Salicornia brachiata to alleviate salinity and water deficit stress tolerance in a model plant through transgenic intervention. Transgenic plants overexpressing SbPIP2 gene showed improved physio-biochemical parameters like increased osmolytes (proline, total sugar, and amino acids), antioxidants (polyphenols), pigments and membrane stability under salinity and drought stresses compared to control plants [wild type (WT) and vector control (VC) plants]. Multivariate statistical analysis showed that, under water and salinity stresses, osmolytes, antioxidants and pigments were correlated with SbPIP2-overexpressing (SbPIP2-OE) plants treated with salinity and water deficit stress, suggesting their involvement in stress tolerance. As aquaporins are also involved in CO transport, SbPIP2-OE plants showed enhanced photosynthesis performance than wild type upon salinity and drought stresses. Photosynthetic gas exchange (net CO assimilation rate, PSII efficiency, ETR, and non-photochemical quenching) were significantly higher in SbPIP2-OE plants compared to control plants (wild type and vector control plants) under both unstressed and stressed conditions. The higher quantum yield for reduction of end electron acceptors at the PSI acceptor side [Φ ] in SbPIP2-OE plants compared to control plants under abiotic stresses indicates a continued PSI functioning, leading to retained electron transport rate, higher carbon assimilation, and less ROS-mediated injuries. In conclusion, the SbPIP2 gene functionally validated in the present study could be a potential candidate for engineering abiotic stress resilience in important crops.
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| http://dx.doi.org/10.1111/ppl.14384 | DOI Listing |
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