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W4313407638 endingPage "3215" @default.
W4313407638 startingPage "3215" @default.
W4313407638 abstract "Selenium (Se) plays several significant roles in regulating growth, development and plant responses to various abiotic stresses. However, its influence on sulfate transporters (SULTRS) and achieving the harmony with other salt-tolerance features is still limited in the previous literatures. This study elucidated the effect of Se supplementation (5, 10 and 20 µM) on salt-stressed (50 mM NaCl) snap bean seedlings. Generally, the results indicated that Se had dual effects on the salt stressed seedlings according to its concentration. At a low level (5 µM), plants demonstrated a significant improvement in shoot (13.8%) and root (22.8%) fresh weight, chlorophyll a (7.4%), chlorophyll b (14.7%), carotenoids (23.2%), leaf relative water content (RWC; 8.5%), proline (17.2%), total soluble sugars (34.3%), free amino acids (FAA; 18.4%), K (36.7%), Ca (33.4%), K/Na ratio (77.9%), superoxide dismutase (SOD; 18%), ascorbate peroxidase (APX;12.8%) and guaiacol peroxidase (G-POX; 27.1%) compared to the untreated plants. Meanwhile, most of these responses as well as sulfur (S), Se and catalase (CAT) were obviously decreased in parallel with increasing the applied Se up to 20 µM. The molecular study revealed that three membrane sulfate transporters (SULTR1, SULTR2 and SULTR 3) in the root and leaves and salinity responsive genes (SOS1, NHX1 and Osmotin) in leaves displayed different expression patterns under various Se treatments. Conclusively, Se at low doses can be beneficial in mitigating salinity-mediated damage and achieving the functioning homeostasis to tolerance features." @default.
W4313407638 created "2023-01-06" @default.
W4313407638 creator A5007944170 @default.
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W4313407638 creator A5089031429 @default.
W4313407638 creator A5091883090 @default.
W4313407638 date "2022-12-18" @default.
W4313407638 modified "2023-10-05" @default.
W4313407638 title "Applied Selenium as a Powerful Antioxidant to Mitigate the Harmful Effects of Salinity Stress in Snap Bean Seedlings" @default.
W4313407638 cites W1573518848 @default.
W4313407638 cites W1982512487 @default.
W4313407638 cites W1986901847 @default.
W4313407638 cites W1996610197 @default.
W4313407638 cites W1998400578 @default.
W4313407638 cites W2000928205 @default.
W4313407638 cites W2002807853 @default.
W4313407638 cites W2005995340 @default.
W4313407638 cites W2015753310 @default.
W4313407638 cites W2016918317 @default.
W4313407638 cites W2023149913 @default.
W4313407638 cites W2028823348 @default.
W4313407638 cites W2033393318 @default.
W4313407638 cites W2038686491 @default.
W4313407638 cites W2042004190 @default.
W4313407638 cites W2047682022 @default.
W4313407638 cites W2060194897 @default.
W4313407638 cites W2067148202 @default.
W4313407638 cites W2075488370 @default.
W4313407638 cites W2079803186 @default.
W4313407638 cites W2092315387 @default.
W4313407638 cites W2097006694 @default.
W4313407638 cites W2101868792 @default.
W4313407638 cites W2104335271 @default.
W4313407638 cites W2132072558 @default.
W4313407638 cites W2141548709 @default.
W4313407638 cites W2162160990 @default.
W4313407638 cites W2166044773 @default.
W4313407638 cites W2171559544 @default.
W4313407638 cites W2304449231 @default.
W4313407638 cites W2329302408 @default.
W4313407638 cites W2398408463 @default.
W4313407638 cites W2465911713 @default.
W4313407638 cites W254586872 @default.
W4313407638 cites W2570657781 @default.
W4313407638 cites W2586416586 @default.
W4313407638 cites W2736149461 @default.
W4313407638 cites W2767846955 @default.
W4313407638 cites W2771318340 @default.
W4313407638 cites W2773869593 @default.
W4313407638 cites W2791747981 @default.
W4313407638 cites W2796383342 @default.
W4313407638 cites W2805669802 @default.
W4313407638 cites W2889059171 @default.
W4313407638 cites W2911559702 @default.
W4313407638 cites W2914620648 @default.
W4313407638 cites W2917760206 @default.
W4313407638 cites W2963087463 @default.
W4313407638 cites W2973120659 @default.
W4313407638 cites W3000727377 @default.
W4313407638 cites W3011428665 @default.
W4313407638 cites W3023020523 @default.
W4313407638 cites W3035216846 @default.
W4313407638 cites W3043053580 @default.
W4313407638 cites W3046058409 @default.
W4313407638 cites W3047469173 @default.
W4313407638 cites W3112163404 @default.
W4313407638 cites W3113516199 @default.
W4313407638 cites W3120035970 @default.
W4313407638 cites W3123631238 @default.
W4313407638 cites W3155978019 @default.
W4313407638 cites W3169452610 @default.
W4313407638 cites W3174519935 @default.
W4313407638 cites W3188938495 @default.
W4313407638 cites W3195932665 @default.
W4313407638 cites W3200405839 @default.
W4313407638 cites W3206903197 @default.
W4313407638 cites W3216709166 @default.
W4313407638 cites W3217273927 @default.
W4313407638 cites W4205933572 @default.
W4313407638 cites W4210282069 @default.
W4313407638 cites W4214771618 @default.
W4313407638 cites W4220933007 @default.
W4313407638 cites W4223504956 @default.
W4313407638 cites W4224314078 @default.
W4313407638 cites W4225769106 @default.
W4313407638 cites W4281770834 @default.
W4313407638 cites W4295006391 @default.
W4313407638 cites W4297147194 @default.
W4313407638 cites W4312076639 @default.
W4313407638 doi "https://doi.org/10.3390/agronomy12123215" @default.
W4313407638 hasPublicationYear "2022" @default.
W4313407638 type Work @default.