The F130S point mutation in the Arabidopsis high-affinity K+ transporter AtHAK5 increases K+ over Na+ and Cs+ selectivity and confers Na+ and Cs+ tolerance to yeast under heterologous expression

Defining membrane spanning domains and crucial membrane-localized acidic amino acid residues for K+ transport of a Kup/HAK/KT-type Escherichia coli potassium transporter

(2014) Yoko Sato et al.   JOURNAL OF BIOCHEMISTRY

K+ uptake in plant roots. The systems involved, their regulation and parallels in other organisms

(2014) Manuel Nieves-Cordones et al.   JOURNAL OF PLANT PHYSIOLOGY

The twins K+ and Na+ in plants

(2014) Begoña Benito et al.   JOURNAL OF PLANT PHYSIOLOGY

Cesium Inhibits Plant Growth through Jasmonate Signaling in Arabidopsis thaliana

(2013) Eri Adams et al.   INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES

A Ca2+-Sensitive System Mediates Low-Affinity K+ Uptake in the Absence of AKT1 in Arabidopsis Plants

(2012) Fernando Caballero et al.   PLANT AND CELL PHYSIOLOGY

Root K+ Acquisition in Plants: The Arabidopsis thaliana Model

(2011) F. Aleman et al.   PLANT AND CELL PHYSIOLOGY

Potassium and sodium transport in non-animal cells: the Trk/Ktr/HKT transporter family

(2010) C. Corratgé-Faillie et al.   CELLULAR AND MOLECULAR LIFE SCIENCES

Studies on Arabidopsis athak5, atakt1 double mutants disclose the range of concentrations at which AtHAK5, AtAKT1 and unknown systems mediate K+ uptake

(2010) Francisco Rubio et al.   PHYSIOLOGIA PLANTARUM

Research on potassium in agriculture: needs and prospects

(2010) Volker Römheld et al.   PLANT AND SOIL

High-Affinity K+ Transport in Arabidopsis: AtHAK5 and AKT1 Are Vital for Seedling Establishment and Postgermination Growth under Low-Potassium Conditions

(2010) Y. J. Pyo et al.   PLANT PHYSIOLOGY

Physiological functions of mineral macronutrients

(2009) Frans JM Maathuis   CURRENT OPINION IN PLANT BIOLOGY

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

Mechanisms of Salinity Tolerance

(2008) Rana Munns et al.   Annual Review of Plant Biology

Differential regulation of the HAK5 genes encoding the high-affinity K+ transporters of Thellungiella halophila and Arabidopsis thaliana

(2008) Fernando Alemán et al.   ENVIRONMENTAL AND EXPERIMENTAL BOTANY

Point mutations in the barley HvHAK1 potassium transporter lead to improved K+-nutrition and enhanced resistance to salt stress

(2008) Silvina Mangano et al.   FEBS LETTERS

The high affinity K+transporter AtHAK5 plays a physiological rolein plantaat very low K+concentrations and provides a caesium uptake pathway inArabidopsis

(2008) Zhi Qi et al.   JOURNAL OF EXPERIMENTAL BOTANY

Relative contribution of AtHAK5 and AtAKT1 to K+uptake in the high-affinity range of concentrations

(2008) Francisco Rubio et al.   PHYSIOLOGIA PLANTARUM

Potassium transport and plant salt tolerance

(2008) Sergey Shabala et al.   PHYSIOLOGIA PLANTARUM

Crops and genotypes differ in efficiency of potassium uptake and use

(2008) Zed Rengel et al.   PHYSIOLOGIA PLANTARUM

A putative role for the plasma membrane potential in the control of the expression of the gene encoding the tomato high-affinity potassium transporter HAK5

(2008) Manuel Nieves-Cordones et al.   PLANT MOLECULAR BIOLOGY