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Removal of Ca2+ channel β3 Subunit enhances Ca2+ oscillation frequency and insulin exocytosis
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Auxiliary subunits: essential components of the voltage-gated calcium channel complex
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Disturbances in glucose-tolerance, insulin-release, and stress-induced hyperglycemia upon disruption of the CaV2.3 (α1E) subunit of voltage-gated Ca2+ channels
A Pereverzev et al.
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