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1. Overexpression of rice High-affinity Potassium Transporter gene OsHKT1;5 improves salinity and drought tolerance in Arabidopsis NSTL国家科技图书文献中心

Mohammad Asad,Ullah | Muhammad-Redha,Abdul...... - 《Molecular biology reports》 - 2025,52(1) - 1～12 - 共12页

摘要： salinity and drought. The OsHKT1;5* gene was introduced* | expression. Three transgenic lines of OsHKT1;5* were used* | higher expression levels of the OsHKT1;5* gene in both* | plants.Conclusions In conclusion, this study revealed OsHKT1;5* as a* | Abstract Background Rice is subjected to

关键词： Salinity | Drought | OsHKT1;5 | Arabidopsis | Rice

2. The GRAS transcription factor OsGRAS2 negatively impacts salt tolerance in rice NSTL国家科技图书文献中心

Ma, Ao | Wang, Tian-Jing ... - 《Plant Cell Reports》 - 2025,44(1) - 共16页

摘要： OsHKT1;5 expression. This study demonstrates a novel | Key messageTranscription factor OsGRAS2 | regulates salt stress tolerance and yield in | rice.AbstractPlant-specific GRAS transcription factors are involved | in many different aspects of plant growth and

关键词： Rice | Salt stress | Transcription factor | OsGRAS2

3. Global variation in DNA methylation in rice plants under salinity reveals tissue and genotype influence NSTL国家科技图书文献中心

do Amaral, Marcelo N... | Auler, Priscila Aria...... - 《Theoretical and Experimental Plant Physiology》 - 2024,36(4) - 681～690 - 共10页

摘要：Plants have developed intricate mechanisms to | cope with salinity, including epigenetic | modifications like DNA methylation, influencing gene | expression and phenotypic traits. However, knowledge about | gene expression related to DNA methylation in

关键词： 5-Methylcytosine | Oryza sativa L. | Epigenetics; NaCl | OsHKT1; 5 | STRESS

4. Evaluation of some biochemical and biomolecular indicators in rice (Oryza sativa L.) during the seedling stage under NaCl stress NSTL国家科技图书文献中心

Cuong Quoc,Duong | Anh Lan,Bui ... - 《Journal of crop science and Biotechnology》 - 2024,27(5) - 567～584 - 共18页

摘要：, OsSOS1, OsHKT1:5, and OsCDPK were highest in OM 9577 | , including OsSOS1, OsNHX1, OsHKT1;4, OsHKT1;5, OsCaM | Abstract Approximately 900 million hectares of | farmland are destroyed by soil salinization, reducing | global grain crop yield and quality. Although some

关键词： Real-time PCR | Rice (Oryza sativa L.) | Salt tolerance | Na+ transporter gene | Proline | Sugar content

5. Effects of riboflavin application on rice growth under salinized soil conditions NSTL国家科技图书文献中心

Jiadkong Kamonthip | Ueda Akihiro - 《Cereal Research Communications》 - 2024,52(4) - 1565～1577 - 共13页

摘要： OsHKT1;5 expressions were observed in the roots of RP | Abstract Salt-sensitive crop varieties suffer | from oxidative stress as a consequence of osmotic and | ionic stresses in plants under salinity stress. This | study is aimed at identifying the effects of

关键词： Proline | Chlorophyll concentrations | Salinized soil | Oxidative stress | Ion transporters

6. Comparative analysis of physiological, enzymatic, and genetic responses revealed the differences in salt tolerance between two rice varieties at the seedling stage NSTL国家科技图书文献中心

Mekawy A.M.M. | Assaha D.V.M.... - 《South African Journal of Botany》 - 2024,170 - 145～155 - 共11页

摘要：, there was 21- and 10-fold upregulation of OsHKT1;5 | © 2024 SAABSalt stress remains a global | problem affecting agricultural production, and the | elucidation of stress tolerance mechanisms in crops, such as | rice, can provide essential information to breeders

关键词： Antioxidant enzymes | Gene expression | Proline accumulation | Salt stress

7. Comparative Physiological and Transcriptomic Profiling Reveals the Characteristics of Tissue Tolerance Mechanisms in the japonica Rice Landrace Under Salt Stress NSTL国家科技图书文献中心

Fauzia Anisa Nazera | Nampei Mami ... - 《Journal of Plant Growth Regulation》 - 2024,43(10) - 3729～3742 - 共14页

摘要：. In contrast, FL478 showed upregulation of OsHKT1;5 | Abstract The aim of this study was to | characterize the tissue tolerance mechanisms of rice under | salt stress. Our preliminary experiment identified a | japonica rice landrace Shuzenji-kokumai (SZK), which is

关键词： Salt stress | Rice landrace | Tissue tolerance | NHXs | DEGs

8. Astaxanthin application enhances salinity tolerance in rice seedlings by abating oxidative stress effects and enhancing Na + /K + homeostatic balance NSTL国家科技图书文献中心

Mekawy, Ahmad Mohamm... | Assaha, Dekoum V. M.... - 《Plant Growth Regulation: An International Journal on Natural and Synthetic Regulators》 - 2024,103(3) - 609～623 - 共15页

摘要： expression of OsBHY, OsNHX1, OsSOS1, and OsHKT1;5* genes* | Since many cultivated plants, including rice | , are susceptible to stress and salt stress, resulting | in a tremendous reduction in yield, threatens food | security worldwide. Strategies such as using

关键词： Koshihikari | Salt stress | Gene expression | Antioxidant enzymes | Na + accumulation | Na + /K + ratio | HUCKLEBERRY SOLANUM-SCABRUM | SALT TOLERANCE | CHLOROPHYLL-A | EXPRESSION...

9. OsTUB1 confers salt insensitivity by interacting with Kinesin13A to stabilize microtubules and ion transporters in rice SCIE Web of Science核心 NSTL国家科技图书文献中心

Chen, Gaoming | Xuan, Wei ... - 《The New Phytologist》 - 2022,235(5) - 1836～1852 - 共17页

摘要：+ transporter OsHKT1;5, a key regulator of ionic homeostasis | Salt stress is one of the major environmental | factors limiting plant growth and development. Although | microtubule (MT) organization is known to be involved in | response to salt stress, few tubulin genes have been

关键词： microtubule | Na+ homeostasis | OsHKT1 | 5 | OsKinesin13A | OsTUB1 | rice (Oryza sativa) | salt insensitivity | QUANTITATIVE TRAIT LOCUS | CELLULAR FUNCTIONS...

10. OsSIRH2-23, a rice salt-induced RING finger protein H2-23, contributes to insensitivity to salinity stress SCIE Web of Science核心 NSTL国家科技图书文献中心

Kim, Ju Hee | Kim, Jong Ho ... - 《Environmental and experimental botany》 - 2022,194 - 共13页

摘要： of several rice trans-porters (OsHKT1;5, OsHKT2;1 | Degradation of proteins via the 26 S | proteasome system is an important step in stress-responsive | signaling networks in plants. Here, we characterized the | rice RING-type E3 ligase gene, OsSIRH2-23

关键词： E3 ligase | OsSalT | OsSIRH2-23 | Rice | Salinity | UBIQUITIN-PROTEASOME SYSTEM | NAC TRANSCRIPTION FACTORS | E3 LIGASE | K+ UPTAKE | FUNCTIONAL-ANALYSIS...

摘要： salinity and drought. The OsHKT1;5 gene was introduced | expression. Three transgenic lines of OsHKT1;5 were used | higher expression levels of the OsHKT1;5 gene in both | plants.Conclusions In conclusion, this study revealed OsHKT1;5 as a | Abstract Background Rice is subjected to

关键词： Salinity | Drought | OsHKT1;5 | Arabidopsis | Rice

摘要： OsHKT1;5 expression. This study demonstrates a novel | Key messageTranscription factor OsGRAS2 | regulates salt stress tolerance and yield in | rice.AbstractPlant-specific GRAS transcription factors are involved | in many different aspects of plant growth and

关键词： Rice | Salt stress | Transcription factor | OsGRAS2

摘要：Plants have developed intricate mechanisms to | cope with salinity, including epigenetic | modifications like DNA methylation, influencing gene | expression and phenotypic traits. However, knowledge about | gene expression related to DNA methylation in

关键词： 5-Methylcytosine | Oryza sativa L. | Epigenetics; NaCl | OsHKT1; 5 | STRESS

摘要：, OsSOS1, OsHKT1:5, and OsCDPK were highest in OM 9577 | , including OsSOS1, OsNHX1, OsHKT1;4, OsHKT1;5, OsCaM | Abstract Approximately 900 million hectares of | farmland are destroyed by soil salinization, reducing | global grain crop yield and quality. Although some

关键词： Real-time PCR | Rice (Oryza sativa L.) | Salt tolerance | Na+ transporter gene | Proline | Sugar content

摘要： OsHKT1;5 expressions were observed in the roots of RP | Abstract Salt-sensitive crop varieties suffer | from oxidative stress as a consequence of osmotic and | ionic stresses in plants under salinity stress. This | study is aimed at identifying the effects of

关键词： Proline | Chlorophyll concentrations | Salinized soil | Oxidative stress | Ion transporters

摘要：, there was 21- and 10-fold upregulation of OsHKT1;5 | © 2024 SAABSalt stress remains a global | problem affecting agricultural production, and the | elucidation of stress tolerance mechanisms in crops, such as | rice, can provide essential information to breeders

关键词： Antioxidant enzymes | Gene expression | Proline accumulation | Salt stress

摘要：. In contrast, FL478 showed upregulation of OsHKT1;5 | Abstract The aim of this study was to | characterize the tissue tolerance mechanisms of rice under | salt stress. Our preliminary experiment identified a | japonica rice landrace Shuzenji-kokumai (SZK), which is

关键词： Salt stress | Rice landrace | Tissue tolerance | NHXs | DEGs

摘要： expression of OsBHY, OsNHX1, OsSOS1, and OsHKT1;5 genes | Since many cultivated plants, including rice | , are susceptible to stress and salt stress, resulting | in a tremendous reduction in yield, threatens food | security worldwide. Strategies such as using

关键词： Koshihikari | Salt stress | Gene expression | Antioxidant enzymes | Na + accumulation | Na + /K + ratio | HUCKLEBERRY SOLANUM-SCABRUM | SALT TOLERANCE | CHLOROPHYLL-A | EXPRESSION...

摘要：+ transporter OsHKT1;5, a key regulator of ionic homeostasis | Salt stress is one of the major environmental | factors limiting plant growth and development. Although | microtubule (MT) organization is known to be involved in | response to salt stress, few tubulin genes have been

关键词： microtubule | Na+ homeostasis | OsHKT1 | 5 | OsKinesin13A | OsTUB1 | rice (Oryza sativa) | salt insensitivity | QUANTITATIVE TRAIT LOCUS | CELLULAR FUNCTIONS...

摘要： of several rice trans-porters (OsHKT1;5, OsHKT2;1 | Degradation of proteins via the 26 S | proteasome system is an important step in stress-responsive | signaling networks in plants. Here, we characterized the | rice RING-type E3 ligase gene, OsSIRH2-23

关键词： E3 ligase | OsSalT | OsSIRH2-23 | Rice | Salinity | UBIQUITIN-PROTEASOME SYSTEM | NAC TRANSCRIPTION FACTORS | E3 LIGASE | K+ UPTAKE | FUNCTIONAL-ANALYSIS...

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摘要： expression of OsBHY, OsNHX1, OsSOS1, and OsHKT1;5* genes* | Since many cultivated plants, including rice | , are susceptible to stress and salt stress, resulting | in a tremendous reduction in yield, threatens food | security worldwide. Strategies such as using