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XB-ART-48396
J Neurophysiol 2014 Mar 01;1116:1383-95. doi: 10.1152/jn.00385.2013.
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Role of amino terminus in voltage gating and junctional rectification of Shaking B innexins.

Marks WD , Skerrett IM .


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Rectifying electrical synapses are rare gap junctions that favor transmission of signals in one direction. Such synapses have been identified in neural systems, including those mediating rapid escape responses of arthropods. In the Drosophila giant fiber system, adjacent cells express and contribute different transcript variants of the innexin Shaking B, resulting in heterotypic gap junctions with rectifying properties. When expressed exogenously, variants Shaking B Lethal (ShakBL) and Shaking B neural + 16 (ShakBN16) form heterotypic junctions that gate asymmetrically in response to transjunctional voltage. To determine whether the amino terminus confers properties of gating and rectification, amino-terminal domains were exchanged between ShakBL and ShakBN16, creating chimeric proteins SBL NTN16 and SBN16 NTL. The properties were analyzed in paired Xenopus oocytes. Our results suggest that the amino terminus plays an important role in establishing rectifying properties inherent to heterotypic junctions composed of ShakBL and ShakBN16. ShakBL/SBL NTN16 junctions behaved similarly to ShakBL/ShakBN16 junctions, gating in response to transjunctional voltage of one polarity and inducing a highly asymmetric conductance-voltage relationship. However, the amino terminus did not act independently to confer sensitivity to transjunctional voltage. The complementary pairing ShakBN16/SBN16 NTL displayed little sensitivity to voltage of either polarity, and in homotypic pairings SBL NTN16 was strongly gated by transjunctional voltage. We propose a model in which the amino terminus induces gating only when matched with an accommodating innexin body.

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Species referenced: Xenopus
Genes referenced: tbxt