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- pOsHAK1:OsSUT1 Promotes Sugar Transport and Enhances Drought Tolerance . . .
These results showed that promoting the long-distance sugar transport through the expression of pOsHAK1:OsSUT1 could produce an improved drought tolerance effect similar to that of pOsHAK1:OsFLN2, providing an effective way to improve the drought tolerance of cereal crops at the seedling stage
- A synthetic cytokinin influences the accumulation of leaf soluble . . .
In our study, SUT1 transporter was induced by drought stress at both the growth stages, whereas SUT2 transporter accumulated equally in all the treatments However, cytokinin treatment reversed the effect of drought on the accumulation of SUT1, similar to well-watered plants
- Guard cell-specific down-regulation of the sucrose transporter SUT1 . . .
Here, we characterized transgenic tobacco plants expressing an antisense gene construct for the SUCROSE TRANSPORTER 1 (SUT1) driven by the GC specific promoter KST1 GCs of transgenic plants contained less sucrose, more starch and had increases in K + content
- Sucrose Transporter ZmSut1 Expression and Localization Uncover New . . .
In maize (Zea mays), the Sucrose Transporter1 (ZmSut1) gene has been implicated in Suc phloem loading based upon RNA expression in leaves, electrophysiological experiments, and phenotypic analysis of zmsut1 mutant plants
- Contributions of TaSUTs to grain weight in wheat under drought
For improving grain yield under both drought and well-watered conditions, SUT1 gene markers of the Westonia and Kauz types should be generated for high sucrose remobilization efficiency Two contradicting results were reported in seedling drought studies
- Phosphorylation of SWEET sucrose transporters regulates plant root . . .
We identified two conserved serine residues in SWEET11 12 that are phosphorylated by SnRK2s under drought stress The phosphorylation of SWEET11 12 enhances sucrose transport and contributes to
- Regulation of Sucrose Transporters and Phloem Loading in Response to . . .
In contrast to drought and salt stress, SUT1 was found to be significantly down-regulated under heat stress in the tested monocots, while SUT4 expression showed the same response
- Structure, phylogeny, allelic haplotypes and expression of sucrose . . .
Under drought stress, in the four detectable SUTs in the seeding, SUT1 and SUT2 were down regulated, in contrast, SUT4 and SUT5 were up regulated, indicating that the SUT4 and SUT5 are important in response to drought stress and may involved in transporting sugar into cell for osmotic adjustment
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