Diversity in Expression Patterns and Functional Properties in the Rice HKT Transporter Family

Jabnoune, Mehdi; Espeout, Sandra; Mieulet, Delphine; Fizames, Cécile; Verdeil, Jean‐Luc; Conéjéro, Geneviève; Rodríguez‐Navarro, Alonso; Sentenac, Hervé; Guiderdoni, Emmanuel; Abdelly, Chédly; Véry, Anne‐Aliénor

doi:10.1104/pp.109.138008

Cited by 174 publications

(283 citation statements)

References 54 publications

(89 reference statements)

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“…5C). This result, indicating an increased Na + transport activity in OsHKT2;4 in low K + and high Na + conditions, is consistent with what was suggested by the reciprocal experiment described by Figure 4, E and F. It should be noted that HKT2;1-type transporters from different cereals have been proposed to be able to mediate Na + -K + symport when expressed in yeast and/or Xenopus oocytes (Rubio et al, 1995;Haro et al, 2005;Jabnoune et al, 2009;Mian et al, 2011). Within the framework of the hypothesis that OsHKT2;4 could also mediate Na + -K + symport activity with variable stoichiometry, as proposed for HvHKT2;1 transporter when expressed in oocytes (Mian et al, 2011), a shift in reversal potential of currents of 31 mV per 10-fold change in ionic activity is very close to the expected shift in a symport of monovalent cations with a 1:1 stoichiometry (i.e.…”

Section: Oshkt2;4 Is Selective For K + Among Monovalent Cationssupporting

confidence: 79%

“…3, B and D). Comparing OsHKT2;4 with other HKT transporters so far characterized and in particular with those described as K + permeable (HKT2;1 from different cereals and OsHKT2;2), it could be noticed that OsHKT2;4 displayed the highest conductance to K + relative to that to Na + : Indeed, the conductance to K + was (slightly) higher than the conductance to Na + in OsHKT2;4 (in bath solutions comprising only K + or Na + as monovalent cation), whereas it was strongly lower (by more than 4 times) than the conductance to Na + in all other HKT transporters (Rubio et al, 1995;Gassmann et al, 1996;Uozumi et al, 2000;Horie et al, 2001;Jabnoune et al, 2009;Mian et al, 2011; Fig. 3D; Supplemental Fig.…”

Section: Oshkt2;4 Is Selective For K + Among Monovalent Cationsmentioning

confidence: 99%

“…S2). Furthermore, the comparison of the reversal potential of currents in the presence of K + or Na + also suggested a selectivity for K + higher in OsHKT2;4 than in other characterized HKT transporters (Gassmann et al, 1996;Jabnoune et al, 2009;Mian et al, 2011;Supplemental Fig. S2).…”

Section: Oshkt2;4 Is Selective For K + Among Monovalent Cationsmentioning

confidence: 99%

“…Cereals possess a much larger number of HKT genes, e.g. five to 11 genes in the different wheat genomes (Huang et al, 2008) and nine genes in rice (Oryza sativa; Garciadeblás et al, 2003), leading to functional diversity within this family (Jabnoune et al, 2009;Corratgé-Faillie et al, 2010). Based on functional studies in heterologous systems (Xenopus oocytes or yeast cells) and phylogenetic analyses, higher plant HKT transporters have been sorted out into two subfamilies .…”

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The Rice Monovalent Cation Transporter OsHKT2;4: Revisited Ionic Selectivity

et al. 2012

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The family of plant membrane transporters named HKT (for high-affinity K+ transporters) can be subdivided into subfamilies 1 and 2, which, respectively, comprise Na+-selective transporters and transporters able to function as Na+-K+ symporters, at least when expressed in yeast (Saccharomyces cerevisiae) or Xenopus oocytes. Surprisingly, a subfamily 2 member from rice (Oryza sativa), OsHKT2;4, has been proposed to form cation/K+ channels or transporters permeable to Ca2+ when expressed in Xenopus oocytes. Here, OsHKT2;4 functional properties were reassessed in Xenopus oocytes. A Ca2+ permeability through OsHKT2;4 was not detected, even at very low external K+ concentration, as shown by highly negative OsHKT2;4 zero-current potential in high Ca2+ conditions and lack of sensitivity of OsHKT2;4 zero-current potential and conductance to external Ca2+. The Ca2+ permeability previously attributed to OsHKT2;4 probably resulted from activation of an endogenous oocyte conductance. OsHKT2;4 displayed a high permeability to K+ compared with that to Na+ (permeability sequence: K+ > Rb+ ≈ Cs+ > Na+ ≈ Li+ ≈ NH4 +). Examination of OsHKT2;4 current sensitivity to external pH suggested that H+ is not significantly permeant through OsHKT2;4 in most physiological ionic conditions. Further analyses in media containing both Na+ and K+ indicated that OsHKT2;4 functions as K+-selective transporter at low external Na+, but transports also Na+ at high (>10 mm) Na+ concentrations. These data identify OsHKT2;4 as a new functional type in the K+ and Na+-permeable HKT transporter subfamily. Furthermore, the high permeability to K+ in OsHKT2;4 supports the hypothesis that this system is dedicated to K+ transport in the plant.

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Section: Oshkt2;4 Is Selective For K + Among Monovalent Cationssupporting

confidence: 79%

Section: Oshkt2;4 Is Selective For K + Among Monovalent Cationsmentioning

confidence: 99%

Section: Oshkt2;4 Is Selective For K + Among Monovalent Cationsmentioning

confidence: 99%

mentioning

confidence: 99%

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The Rice Monovalent Cation Transporter OsHKT2;4: Revisited Ionic Selectivity

et al. 2012

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“…Both K and Cs are alkali metals, and Cs transportation is known to be mediated by several K transporters (Qi et al 2008;Jabnoune et al 2009). Thus, Cs uptake and transportation by K transporters compete with K uptake and transportation in plants.…”

Section: General Information Of Fertilizer Effects On Cs Accumulationmentioning

confidence: 99%

Cesium Accumulation in Paddy Field Rice Grown in Fukushima from 2011 to 2013: Cultivars and Fertilization

Ohmori

Tanaka

Fujiwara

2016

Agricultural Implications of the Fukushima Nuclear Accident

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After the accident at the Fukushima Daiichi Nuclear Power Plant, radioactive cesium (Cs) was released and the agricultural fields in Fukushima were contaminated. It became important to obtain data for radioactive Cs accumulation in rice grown in contaminated fields. We conducted a 3-year investigation in a Fukushima paddy field of radioactive Cs concentrations in various rice cultivars, and in two commercial rice cultivars grown under four different nutrient conditions. Our studies demonstrated substantial variation in radioactive Cs concentrations among the rice cultivars, and an increase in radioactive Cs concentrations in straw and brown rice under high nitrogen and low potassium conditions. Our 3-year investigations of radioactive Cs-contaminated rice in Fukushima paddy field shows that the rice grown in Fukushima is now well-monitored and contains much less than the allowed levels of radiation (100 Bq kg À1 ).

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Salinity tolerance

Tilbrook¹,

Roy²

2013

Plant Abiotic Stress

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Diversity in Expression Patterns and Functional Properties in the Rice HKT Transporter Family

Cited by 174 publications

References 54 publications

The Rice Monovalent Cation Transporter OsHKT2;4: Revisited Ionic Selectivity

The Rice Monovalent Cation Transporter OsHKT2;4: Revisited Ionic Selectivity

Cesium Accumulation in Paddy Field Rice Grown in Fukushima from 2011 to 2013: Cultivars and Fertilization

Salinity tolerance

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