B. Sottocornola scite author profile

B. Sottocornola

2Publications

70Citation Statements Received

39Citation Statements Given

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University of Milan, Istituto di Biofisica, National Research Council

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The Potassium Channel KAT1 Is Activated by Plant and Animal 14-3-3 Proteins

Sottocornola

Visconti

Orsi

et al. 2006

Journal of Biological Chemistry

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14-3-3 proteins modulate the plant inward rectifier K؉ channel KAT1 heterologously expressed in Xenopus oocytes. Injection of recombinant plant 14-3-3 proteins into oocytes shifted the activation curve of KAT1 by ؉11 mV and increased the on . KAT1 was also modulated by 14-3-3 proteins of Xenopus oocytes. Titration of the endogenous 14-3-3 proteins by injection of the peptide Raf 621p resulted in a strong decrease in KAT1 current (ϳ70% at ؊150 mV). The mutation K56E performed on plant protein 14-3-3 in a highly conserved recognition site prevented channel activation. Because the maximal conductance of KAT1 was unaffected by 14-3-3, we can exclude that they act by increasing the number of channels, thus ruling out any effect of these proteins on channel trafficking and/or insertion into the oocyte membrane. 14-3-3 proteins also increased KAT1 current in inside-out patches, suggesting a direct interaction with the channel. Direct interaction was confirmed by overlay experiments with radioactive 14-3-3 on oocyte membranes expressing KAT1.

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14‐3‐3 proteins regulate the potassium channel KAT1 by dual modes

et al. 2008

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KAT1 is a cloned plant potassium channel belonging to the superfamily of Shaker-like Kv channels. Previous studies have shown that 14-3-3 proteins significantly increase KAT1 current by modifying the channel open probability. Employing a 14-3-3 scavenger construct to lower the long-term availability of endogenous 14-3-3 proteins, we found that 14-3-3 proteins not only control the voltage dependency of the channel but also the number of channels in the plasma membrane.

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B. Sottocornola

The Potassium Channel KAT1 Is Activated by Plant and Animal 14-3-3 Proteins

14‐3‐3 proteins regulate the potassium channel KAT1 by dual modes

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