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本文引用的文献

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Characterization of beta subunit modulation of a rabbit cardiac L-type Ca2+ channel alpha 1 subunit as expressed in mouse L cells.在小鼠L细胞中表达的兔心脏L型Ca2+通道α1亚基的β亚基调节特性
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3
Potentiation by the beta subunit of the ratio of the ionic current to the charge movement in the cardiac calcium channel.心脏钙通道中离子电流与电荷移动比率受β亚基增强。
Science. 1993 Oct 22;262(5133):575-8. doi: 10.1126/science.8211185.
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Molecular basis for Ca2+ channel diversity.Ca2+通道多样性的分子基础。
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Altered prevalence of gating modes in neurotransmitter inhibition of N-type calcium channels.神经递质对N型钙通道抑制作用中门控模式的流行率改变。
Science. 1993 Feb 12;259(5097):980-4. doi: 10.1126/science.8094902.
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Microscopic heterogeneity in unitary N-type calcium currents in rat sympathetic neurons.大鼠交感神经元单一N型钙电流的微观异质性
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8
The amino terminus of a calcium channel beta subunit sets rates of channel inactivation independently of the subunit's effect on activation.钙通道β亚基的氨基末端独立于该亚基对激活的影响来设定通道失活速率。
Neuron. 1994 Dec;13(6):1433-8. doi: 10.1016/0896-6273(94)90428-6.
9
Functional properties of cardiac L-type calcium channels transiently expressed in HEK293 cells. Roles of alpha 1 and beta subunits.在HEK293细胞中瞬时表达的心脏L型钙通道的功能特性。α1和β亚基的作用。
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10
Gating kinetics of Ca2+-activated K+ channels from rat muscle incorporated into planar lipid bilayers. Evidence for two voltage-dependent Ca2+ binding reactions.整合到平面脂质双分子层中的大鼠肌肉钙激活钾通道的门控动力学。两个电压依赖性钙结合反应的证据。
J Gen Physiol. 1983 Oct;82(4):511-42. doi: 10.1085/jgp.82.4.511.

心脏钙通道中孔开放的β2a亚基的促进作用。

Facilitation by the beta2a subunit of pore openings in cardiac Ca2+ channels.

作者信息

Costantin J, Noceti F, Qin N, Wei X, Birnbaumer L, Stefani E

机构信息

Department of Anesthesiology, UCLA School of Medicine, UCLA, Los Angeles, CA 90095, USA.

出版信息

J Physiol. 1998 Feb 15;507 ( Pt 1)(Pt 1):93-103. doi: 10.1111/j.1469-7793.1998.093bu.x.

DOI:10.1111/j.1469-7793.1998.093bu.x
PMID:9490822
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2230783/
Abstract
  1. Single channel recordings were performed on the cardiac calcium channel (alpha1C) in order to study the effect of coexpression of the accessory beta2a subunit. On-cell patch clamp recordings were performed after expression of these channels in Xenopus oocytes. 2. The alpha1C subunit, when expressed alone, had similar single channel properties to native cardiac channels. Slow transitions between low and high open probability (Po) gating modes were found as well as fast gating transitions between the open and closed states. 3. Coexpression of the beta2a subunit caused changes in the fast gating during high Po mode. In this mode, open time distributions reveal at least three open states and the beta2a subunit favours the occupancy of the longest, 10-15 ms open state. No effect of the beta2a subunit was found when the channel was gating in the low Po mode. 4. Slow gating transitions were also affected by the beta2a subunit. The high Po mode was maintained for the duration of the depolarizing pulse in the presence of the beta2a subunit; while the alpha1C channel when expressed alone, frequently switched into and out of the high Po mode during the course of a sweep. 5. The beta2a subunit also affected mode switching that occurred between sweeps. Runs analysis revealed that the alpha1C subunit has a tendency toward non-random mode switching. The beta2a subunit increased this tendency. A chi2 analysis of contingency tables indicated that the beta2a subunit caused the alpha1C channel to gain 'intrinsic memory', meaning that the mode of a given sweep can be non-independent of the mode of the previous sweep. 6. We conclude that the beta2a subunit causes changes to the alpha1C channel in both its fast and slow gating behaviour. The beta2a subunit alters fast gating by facilitating movement of the channel into an existing open state. Additionally, the beta2a subunit decreases the slow switching between low and high Po modes.
摘要
  1. 为了研究辅助β2a亚基共表达的影响,对心脏钙通道(α1C)进行了单通道记录。在非洲爪蟾卵母细胞中表达这些通道后,进行了细胞膜片钳记录。2. α1C亚基单独表达时,其单通道特性与天然心脏通道相似。发现了低开放概率(Po)门控模式和高开放概率门控模式之间的缓慢转变,以及开放态和关闭态之间的快速门控转变。3. β2a亚基的共表达导致高Po模式下快速门控的变化。在此模式下,开放时间分布显示至少有三种开放状态,β2a亚基有利于占据最长的10 - 15毫秒开放状态。当通道在低Po模式下门控时,未发现β2a亚基的影响。4. 缓慢门控转变也受到β2a亚基的影响。在存在β2a亚基的情况下,去极化脉冲期间高Po模式持续存在;而单独表达的α1C通道在扫描过程中经常进出高Po模式。5. β2a亚基还影响扫描之间发生的模式转换。游程分析表明,α1C亚基有非随机模式转换的倾向。β2a亚基增加了这种倾向。列联表的卡方分析表明,β2a亚基使α1C通道获得“内在记忆”,这意味着给定扫描的模式可能与前一次扫描的模式非独立。6. 我们得出结论,β2a亚基在其快速和缓慢门控行为方面都导致α1C通道发生变化。β2a亚基通过促进通道进入现有的开放状态来改变快速门控。此外,β2a亚基减少了低Po模式和高Po模式之间的缓慢转换。