AbstractWe report the isolation and characterisation of DKT1, a new carrot K+ channel α-subunit belonging to the Shaker-like family. DKT1 is expressed in many tissues of the adult plant, suggesting that it may play important roles in both nutrition and other important physiological processes. During embryo development, DKT1 is expressed at later phases implying the involvement of K+ in embryo maturation. When co-expressed with KDC1 in Xenopus oocytes, DKT1 is able to form functional, heteromeric channels, suggesting that possible interactions between these two ion channels in plant tissues may modulate K+ uptake
The expression pattern of the KDC1 gene, coding for an inwardly-rectifying K(+) channel of Daucus ca...
AbstractVoltage-gated potassium channels are formed by the assembly of four identical (homotetramer)...
The expression pattern of the KDC1 gene, coding for an inwardly-rectifying K+ channel of Daucus caro...
We report the isolation and characterisation of DKT1, a new carrot K+ channel alpha-subunit belongin...
AbstractWe report the isolation and characterisation of DKT1, a new carrot K+ channel α-subunit belo...
AbstractIn Daucus carota, the model system for embryogenesis, it has been demonstrated that potassiu...
In Daucus carota, the model system for embryogenesis, it has been demonstrated that potassium and K(...
In Daucus carota, the model system for embryogenesis, it has been demonstrated that potassium and K(...
The Shaker potassium channels are tetrameric proteins formed by the assembly of four alpha-subunits....
The Shaker potassium channels are tetrameric proteins formed by the assembly of four alpha-subunits....
Potassium is an essential nutrient which plays an important role in many aspects of plant growth and...
AbstractFunctional heteromeric plant Shaker potassium channels can be formed by the assembly of subu...
Kdc1 is a novel K+-channel gene cloned from carrot roots, and which is also present in cultured carr...
Kdc1 is a novel K+-channel gene cloned from carrot roots, and which is also present in cultured carr...
The expression pattern of the KDC1 gene, coding for an inwardly-rectifying K(+) channel of Daucus ca...
The expression pattern of the KDC1 gene, coding for an inwardly-rectifying K(+) channel of Daucus ca...
AbstractVoltage-gated potassium channels are formed by the assembly of four identical (homotetramer)...
The expression pattern of the KDC1 gene, coding for an inwardly-rectifying K+ channel of Daucus caro...
We report the isolation and characterisation of DKT1, a new carrot K+ channel alpha-subunit belongin...
AbstractWe report the isolation and characterisation of DKT1, a new carrot K+ channel α-subunit belo...
AbstractIn Daucus carota, the model system for embryogenesis, it has been demonstrated that potassiu...
In Daucus carota, the model system for embryogenesis, it has been demonstrated that potassium and K(...
In Daucus carota, the model system for embryogenesis, it has been demonstrated that potassium and K(...
The Shaker potassium channels are tetrameric proteins formed by the assembly of four alpha-subunits....
The Shaker potassium channels are tetrameric proteins formed by the assembly of four alpha-subunits....
Potassium is an essential nutrient which plays an important role in many aspects of plant growth and...
AbstractFunctional heteromeric plant Shaker potassium channels can be formed by the assembly of subu...
Kdc1 is a novel K+-channel gene cloned from carrot roots, and which is also present in cultured carr...
Kdc1 is a novel K+-channel gene cloned from carrot roots, and which is also present in cultured carr...
The expression pattern of the KDC1 gene, coding for an inwardly-rectifying K(+) channel of Daucus ca...
The expression pattern of the KDC1 gene, coding for an inwardly-rectifying K(+) channel of Daucus ca...
AbstractVoltage-gated potassium channels are formed by the assembly of four identical (homotetramer)...
The expression pattern of the KDC1 gene, coding for an inwardly-rectifying K+ channel of Daucus caro...