Elucidating the molecular mechanisms mediating plant salt‐stress responses
Y Yang, Y Guo�- New phytologist, 2018 - Wiley Online Library
Y Yang, Y Guo
New phytologist, 2018•Wiley Online LibraryContents Summary 523 I. Introduction 523 II. Sensing salt stress 524 III. Ion homeostasis
regulation 524 IV. Metabolite and cell activity responses to salt stress 527 V. Conclusions
and perspectives 532 Acknowledgements 533 References 533 Summary Excess soluble
salts in soil (saline soils) are harmful to most plants. Salt imposes osmotic, ionic, and
secondary stresses on plants. Over the past two decades, many determinants of salt
tolerance and their regulatory mechanisms have been identified and characterized using�…
regulation 524 IV. Metabolite and cell activity responses to salt stress 527 V. Conclusions
and perspectives 532 Acknowledgements 533 References 533 Summary Excess soluble
salts in soil (saline soils) are harmful to most plants. Salt imposes osmotic, ionic, and
secondary stresses on plants. Over the past two decades, many determinants of salt
tolerance and their regulatory mechanisms have been identified and characterized using�…
Contents Summary 523 I. Introduction 523 II. Sensing salt stress 524 III. Ion homeostasis regulation 524 IV. Metabolite and cell activity responses to salt stress 527 V. Conclusions and perspectives 532 Acknowledgements 533 References 533
Summary
Excess soluble salts in soil (saline soils) are harmful to most plants. Salt imposes osmotic, ionic, and secondary stresses on plants. Over the past two decades, many determinants of salt tolerance and their regulatory mechanisms have been identified and characterized using molecular genetics and genomics approaches. This review describes recent progress in deciphering the mechanisms controlling ion homeostasis, cell activity responses, and epigenetic regulation in plants under salt stress. Finally, we highlight research areas that require further research to reveal new determinants of salt tolerance in plants.
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