Rice OsHAK16 functions in potassium uptake and translocation in shoot, maintaining potassium homeostasis and salt tolerance
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Title
Rice OsHAK16 functions in potassium uptake and translocation in shoot, maintaining potassium homeostasis and salt tolerance
Authors
Keywords
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Journal
PLANTA
Volume -, Issue -, Pages -
Publisher
Springer Science and Business Media LLC
Online
2019-05-23
DOI
10.1007/s00425-019-03194-3
References
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Related references
Note: Only part of the references are listed.- Plant HAK/KUP/KT K + transporters: Function and regulation
- (2018) Weihong Li et al. SEMINARS IN CELL & DEVELOPMENTAL BIOLOGY
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- (2015) Guang Chen et al. PLANT CELL AND ENVIRONMENT
- K+retention in leaf mesophyll, an overlooked component of salinity tolerance mechanism: A case study for barley
- (2014) Honghong Wu et al. Journal of Integrative Plant Biology
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- (2014) Eri Adams et al. Journal of Integrative Plant Biology
- Going beyond nutrition: Regulation of potassium homoeostasis as a common denominator of plant adaptive responses to environment
- (2014) Uta Anschütz et al. JOURNAL OF PLANT PHYSIOLOGY
- The Role of a Potassium Transporter OsHAK5 in Potassium Acquisition and Transport from Roots to Shoots in Rice at Low Potassium Supply Levels
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- Potassium Transport and Signaling in Higher Plants
- (2013) Yi Wang et al. Annual Review of Plant Biology
- Root pressure and beyond: energetically uphill water transport into xylem vessels?
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- Capacity and Plasticity of Potassium Channels and High-Affinity Transporters in Roots of Barley and Arabidopsis
- (2013) D. Coskun et al. PLANT PHYSIOLOGY
- Knockdown of a Rice Stelar Nitrate Transporter Alters Long-Distance Translocation But Not Root Influx
- (2012) Z. Tang et al. PLANT PHYSIOLOGY
- Expression of OsHAK genes encoding potassium ion transporters in rice
- (2011) Tomoyuki Okada et al. Plant Biotechnology
- Studies on Arabidopsis athak5, atakt1 double mutants disclose the range of concentrations at which AtHAK5, AtAKT1 and unknown systems mediate K+ uptake
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- High-Affinity K+ Transport in Arabidopsis: AtHAK5 and AKT1 Are Vital for Seedling Establishment and Postgermination Growth under Low-Potassium Conditions
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- Potassium (K+) gradients serve as a mobile energy source in plant vascular tissues
- (2010) P. Gajdanowicz et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- The Arabidopsis thaliana HAK5 K+ Transporter Is Required for Plant Growth and K+ Acquisition from Low K+ Solutions under Saline Conditions
- (2009) Manuel Nieves-Cordones et al. Molecular Plant
- A conserved primary salt tolerance mechanism mediated by HKT transporters: a mechanism for sodium exclusion and maintenance of high K+/Na+ratio in leaves during salinity stress
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- HKT transporter-mediated salinity resistance mechanisms in Arabidopsis and monocot crop plants
- (2009) Tomoaki Horie et al. TRENDS IN PLANT SCIENCE
- Mechanisms of Salinity Tolerance
- (2008) Rana Munns et al. Annual Review of Plant Biology
- KT/HAK/KUP potassium transporters gene family and their whole-life cycle expression profile in rice (Oryza sativa)
- (2008) Madhur Gupta et al. MOLECULAR GENETICS AND GENOMICS
- Relative contribution of AtHAK5 and AtAKT1 to K+uptake in the high-affinity range of concentrations
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- Potassium transport and plant salt tolerance
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- Two rice phosphate transporters, OsPht1;2 and OsPht1;6, have different functions and kinetic properties in uptake and translocation
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