Overexpression of rice High-affinity Potassium Transporter gene OsHKT1;5 improves salinity and drought tolerance in Arabidopsis

Background Rice is subjected to various environmental stresses, resulting in significant production losses. Abiotic stresses, particularly drought and salinity, are the leading causes of plant damage worldwide. The High-affinity Potassium Transporter ( HKT ) gene family plays an important role in en...

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Bibliographic Details
Published in:Molecular biology reports 2025-12, Vol.52 (1), p.40-40, Article 40
Main Authors: Ullah, Mohammad Asad, Abdullah-Zawawi, Muhammad-Redha, Razalli, Izreen Izzati, Sukiran, Noor Liyana, Uddin, Md. Imtiaz, Zainal, Zamri
Format: Article
Language:English
Subjects:
abiotic stress
Affinity
Animal Anatomy
Animal Biochemistry
antioxidants
Arabidopsis
Arabidopsis - genetics
Arabidopsis thaliana
Biomedical and Life Sciences
Cation Transport Proteins - genetics
Cation Transport Proteins - metabolism
chlorophyll
Chlorophyll - metabolism
Drought
Drought Resistance
drought tolerance
Droughts
family
Gene Expression Regulation, Plant - genetics
Genetic transformation
genetically modified organisms
Genomic analysis
Germination
Germination - genetics
Histology
leaves
Life Sciences
Morphology
New varieties
Original Article
Oryza - genetics
Oryza - metabolism
phenotype
plant damage
Plant Proteins - genetics
Plant Proteins - metabolism
Plant Roots - genetics
Plant Roots - metabolism
Plants, Genetically Modified - genetics
Potassium
Potassium - metabolism
Potassium transporter
Rice
Salinity
Salinity effects
salt tolerance
Salt Tolerance - genetics
stress tolerance
Stress, Physiological - genetics
Transgenes
Transgenic plants
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Summary:Background Rice is subjected to various environmental stresses, resulting in significant production losses. Abiotic stresses, particularly drought and salinity, are the leading causes of plant damage worldwide. The High-affinity Potassium Transporter ( HKT ) gene family plays an important role in enhancing crop stress tolerance by regulating physiological and enzymatic functions. Methods and results This study investigates the effect of overexpressing the rice HKT1;5 gene in Arabidopsis thaliana on its tolerance to salinity and drought. The OsHKT1;5 gene was introduced into Arabidopsis under the control of 35 S promoter of CaMV via floral dip transformation method. PCR confirmed the integration of the transgene into the Arabidopsis genome, while qPCR analysis showed its expression. Three transgenic lines of OsHKT1;5 were used for stress treatment and phenotypic studies. The overexpressed lines showed considerably higher germination rates, increased leaf counts, greater fresh and dry weights of the roots and shoots, higher chlorophyll contents, longer root lengths, and reduced Na + levels together with increased K + ions levels after salt and drought treatments, in comparison to wild-type plants. Furthermore, overexpressed lines exhibited higher antioxidant levels than wild-type plants under salinity and drought conditions. In addition, transgenic lines showed higher expression levels of the OsHKT1;5 gene in both roots and shoots compared to wild-type plants. Conclusions In conclusion, this study revealed OsHKT1;5 as a promising candidate for enhancing tolerance to salinity and drought stresses in rice, marking a significant step toward developing a new rice variety with improved abiotic stress tolerance.
ISSN:0301-4851
1573-4978
1573-4978
DOI:10.1007/s11033-024-10130-6