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Functional Characterisation of the Transcription Factor GsWRKY23 Gene from Glycine soja in Overexpressed Soybean Composite Plants and Arabidopsis under Salt Stress.
- Source :
- Plants (2223-7747); Sep2023, Vol. 12 Issue 17, p3030, 20p
- Publication Year :
- 2023
-
Abstract
- WRKY proteins are a superfamily of transcription factors (TFs) that play multiple roles in plants' growth, development, and environmental stress response. In this study, a novel WRKY gene called GsWRKY23 that is specifically upregulated in salt-tolerant Glycine soja accession BB52 seedlings was identified by transcriptomic analysis under salt stress. How the physiological functions and mechanisms of the GsWRKY23 gene affect salt tolerance was investigated using transformations of soybean hairy roots and Arabidopsis, including wild-type (WT) and atwrky23-mutant plants. The results showed that GsWRKY23 in the roots, stems, and leaves of BB52, along with its promoter in the cotyledons and root tips of GsWRKY23pro::GUS Arabidopsis seedlings, displayed enhanced induction under salt stress. GsWRKY23 localises to the nucleus and shows transcriptional activation ability in yeast cells. Compared to GsWRKY23-RNAi wild soybean hairy-root composite plants under salt stress, obvious improvements, such as superior growth appearance, plant height and fresh weight (FW), and leaf chlorophyll and relative water content (RWC), were displayed by GsWRKY23-overexpressing (OE) composite plants. Moreover, their relative electrolytic leakage (REL) values and malondialdehyde (MDA) contents in the roots and leaves declined significantly. Most of the contents of Na<superscript>+</superscript> and Cl<superscript>−</superscript> in the roots, stems, and leaves of GsWRKY23-OE plants decreased significantly, while the content of K<superscript>+</superscript> in the roots increased, and the content of NO<subscript>3</subscript><superscript>−</superscript> displayed no obvious change. Ultimately, the Na<superscript>+</superscript>/K<superscript>+</superscript> ratios of roots, stems, and leaves, along with the Cl<superscript>−</superscript>/NO<subscript>3</subscript><superscript>−</superscript> ratios of roots and stems, decreased significantly. In the transgenic WT-GsWRKY23 and atwrky23-GsWRKY23 Arabidopsis seedlings, the salt-induced reduction in seed germination rate and seedling growth was markedly ameliorated; plant FW, leaf chlorophyll content, and RWC increased, and the REL value and MDA content in shoots decreased significantly. In addition, the accumulation of Na<superscript>+</superscript> and Cl<superscript>−</superscript> decreased, and the K<superscript>+</superscript> and NO<subscript>3</subscript><superscript>−</superscript> levels increased markedly to maintain lower Na<superscript>+</superscript>/K<superscript>+</superscript> and Cl<superscript>−</superscript>/NO<subscript>3</subscript><superscript>−</superscript> ratios in the roots and shoots. Taken together, these results highlight the role of GsWRKY23 in regulating ionic homeostasis in NaCl-stressed overexpressed soybean composite plants and Arabidopsis seedlings to maintain lower Na<superscript>+</superscript>/K<superscript>+</superscript> and Cl<superscript>−</superscript>/NO<subscript>3</subscript><superscript>−</superscript> ratios in the roots and shoots, thus conferring improved salt tolerance. [ABSTRACT FROM AUTHOR]
- Subjects :
- ASTERACEAE
TRANSCRIPTION factors
CHLOROPHYLL in water
SOYBEAN
ARABIDOPSIS
GLYCINE
Subjects
Details
- Language :
- English
- ISSN :
- 22237747
- Volume :
- 12
- Issue :
- 17
- Database :
- Complementary Index
- Journal :
- Plants (2223-7747)
- Publication Type :
- Academic Journal
- Accession number :
- 171858197
- Full Text :
- https://doi.org/10.3390/plants12173030