Double-gating mechanism and diversity of an adenosine triphosphate (ATP)-sensitive K^+ channel in neurons acutely dissociated from rat neocortex

Double-gating mechanism and diversity of an adenosine triphosphate (ATP)-sensitive K^+ channel in neurons acutely dissociated from rat neocortex

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摘要 Classically, ion channels are classified into 2 groups: chemical-sensitive (ligand-gated) and voltage-sensitive channels. Single ATP-sensitive K+ (K-ATP) channel currents were recorded in acutely dissociated rat neo-cortical neurons using patch clamp technique. A type of K-ATP channel has been found to be gated not only by intra-cellular ATP, but also by membrane potential ( Vm) , and proved to be a novel mechanism underlying the gating of ion channels, namely bi-gating mechanism. The results also show that the K-ATP channels possess heterogeneity and di-versity. These types of K-ATP channels have been identified in 40.12% of all patches, which are different in activa-tion-threshold and voltage-sensitivity. The present experiment studied the type-3 K-ATP channel with a unitary con-ductance of about 80 pS in detail ( n = 15). Taking account of all the available data, a variety of K-ATP channels are suggested to exist in body, and one type of them is bi-gated by both chemical substances and membrane potentials. This property of the K-ATP channels may be related to their pathophysiblogical function. Classically, ion channels are classified into 2 groups: chemical-sensitive (ligand-gated) and voltage-sensitive channels. Single ATP-sensitive K+ (K-ATP) channel currents were recorded in acutely dissociated rat neo-cortical neurons using patch clamp technique. A type of K-ATP channel has been found to be gated not only by intra-cellular ATP, but also by membrane potential ( Vm) , and proved to be a novel mechanism underlying the gating of ion channels, namely bi-gating mechanism. The results also show that the K-ATP channels possess heterogeneity and di-versity. These types of K-ATP channels have been identified in 40.12% of all patches, which are different in activa-tion-threshold and voltage-sensitivity. The present experiment studied the type-3 K-ATP channel with a unitary con-ductance of about 80 pS in detail ( n = 15). Taking account of all the available data, a variety of K-ATP channels are suggested to exist in body, and one type of them is bi-gated by both chemical substances and membrane

作者佟振清唐向东杨文俊

机构地区 Department of Physiology

出处《Science China(Life Sciences)》 SCIE CAS 1997年第1期10-17,共8页 中国科学（生命科学英文版）

基金 Project supported by the National Natural Science Foundation of China and Natural Science Foundation of Guangdong Province.

关键词 ATP-sensitive K^+ channel GATING kinetics patch CLAMP dissociated neuron rat. ATP-sensitive K^+ channel, gating kinetics, patch clamp, dissociated neuron, rat.

分类号 Q52 [生物学—生物化学]

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Double-gating mechanism and diversity of an adenosine triphosphate (ATP)-sensitive K^+ channel in neurons acutely dissociated from rat neocortex

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