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W3196226329 endingPage "410" @default.
W3196226329 startingPage "398" @default.
W3196226329 abstract "In this study, transgenic Arabidopsis lines expressing a potato gene (D43), encoding Glyceraldehyde 3-phosphate dehydrogenase, were studied. The D43 plants exhibited improved morphological parameters and accumulation of photosynthetic pigments compared to wild-type (WT) plants under salinity stress conditions. In addition, the D43 transgenic plants showed significantly reduced electrolyte leakage, higher stomatal conductance, lower malondialdehyde (MDA) content, and higher proline content than the WT plants under salinity stress. The gene expression analysis showed that the D43 plants accumulated 1.7-fold, 2.2-fold, and 1.3-fold higher mRNA transcripts of genes encoding the antioxidant enzymes ascorbate peroxidase (APX), superoxide dismutase (SOD), and catalase (CAT), respectively under salt-stress conditions. Furthermore, they significantly altered the expression of seven major stress-responsive genes, which indicated that overexpression of the potato D43 gene gave salinity stress resistance to Arabidopsis. Chlorophyll-a fluorescence kinetics confirmed the efficient photon absorption, electron transport, and overall PSII efficiency that led to improved photosynthesis in the D43 plants subjected to NaCl-induced salinity stress. Overall, our findings have suggested that potato D43 is a potential candidate gene for developing salinity stress resistance in higher plants." @default.
W3196226329 created "2021-08-30" @default.
W3196226329 creator A5011161364 @default.
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W3196226329 creator A5087302385 @default.
W3196226329 date "2021-01-01" @default.
W3196226329 modified "2023-10-16" @default.
W3196226329 title "Overexpression of cytoplasmic <i>Solanum tuberosum</i> Glyceraldehyde 3-phosphate dehydrogenase (GAPDH) gene improves PSII efficiency and alleviates salinity stress in <i>Arabidopsis</i>." @default.
W3196226329 cites W1499346833 @default.
W3196226329 cites W1660011402 @default.
W3196226329 cites W1974919490 @default.
W3196226329 cites W1976199592 @default.
W3196226329 cites W1976324993 @default.
W3196226329 cites W1980620050 @default.
W3196226329 cites W1994431135 @default.
W3196226329 cites W2000214516 @default.
W3196226329 cites W2004760794 @default.
W3196226329 cites W2010054252 @default.
W3196226329 cites W2021221879 @default.
W3196226329 cites W2023430273 @default.
W3196226329 cites W2024676300 @default.
W3196226329 cites W2025018979 @default.
W3196226329 cites W2025058074 @default.
W3196226329 cites W2029788693 @default.
W3196226329 cites W2034767282 @default.
W3196226329 cites W2035273977 @default.
W3196226329 cites W2039453209 @default.
W3196226329 cites W2039730429 @default.
W3196226329 cites W2040226559 @default.
W3196226329 cites W2040811909 @default.
W3196226329 cites W2047558693 @default.
W3196226329 cites W2052194774 @default.
W3196226329 cites W2056262403 @default.
W3196226329 cites W2057455158 @default.
W3196226329 cites W2059236819 @default.
W3196226329 cites W2066764287 @default.
W3196226329 cites W2069078351 @default.
W3196226329 cites W2070488693 @default.
W3196226329 cites W2074924645 @default.
W3196226329 cites W2075280488 @default.
W3196226329 cites W2089415472 @default.
W3196226329 cites W2093931964 @default.
W3196226329 cites W2094949585 @default.
W3196226329 cites W2101035657 @default.
W3196226329 cites W2114502151 @default.
W3196226329 cites W2136778629 @default.
W3196226329 cites W2137502106 @default.
W3196226329 cites W2148506530 @default.
W3196226329 cites W2152237096 @default.
W3196226329 cites W2165456404 @default.
W3196226329 cites W2181212629 @default.
W3196226329 cites W2321443763 @default.
W3196226329 cites W2464198397 @default.
W3196226329 cites W2468002452 @default.
W3196226329 cites W2474515130 @default.
W3196226329 cites W2582024429 @default.
W3196226329 cites W2592295931 @default.
W3196226329 cites W2600054871 @default.
W3196226329 cites W2774176065 @default.
W3196226329 cites W2790432976 @default.
W3196226329 cites W2890509176 @default.
W3196226329 cites W2901779211 @default.
W3196226329 cites W2904011702 @default.
W3196226329 cites W2912903904 @default.
W3196226329 cites W2945667099 @default.
W3196226329 cites W2981524172 @default.
W3196226329 cites W2994817202 @default.
W3196226329 cites W2995261896 @default.
W3196226329 cites W2996310146 @default.
W3196226329 cites W2997719778 @default.
W3196226329 cites W2999619137 @default.
W3196226329 cites W3021644927 @default.
W3196226329 cites W3028988125 @default.
W3196226329 cites W3086504419 @default.
W3196226329 cites W3088583430 @default.
W3196226329 cites W3088908139 @default.
W3196226329 cites W3091840921 @default.
W3196226329 cites W3108557393 @default.
W3196226329 cites W3112893044 @default.
W3196226329 cites W3152734177 @default.
W3196226329 cites W371158841 @default.
W3196226329 cites W4211159433 @default.
W3196226329 cites W4246643542 @default.
W3196226329 cites W574088521 @default.
W3196226329 cites W90532521 @default.
W3196226329 doi "https://doi.org/10.1080/17429145.2021.1962420" @default.
W3196226329 hasPublicationYear "2021" @default.
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