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The Short N-terminal Domains of STIM1 and STIM2 Control the Activation Kinetics of Orai1 Channels*

机译：STIM1和STIM2的短N末端结构域控制Orai1通道的激活动力学*

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摘要

STIM1 and STIM2 are dynamic transmembrane endoplasmic reticulum Ca2+ sensors, coupling directly to activate plasma membrane Orai Ca2+ entry channels. Despite extensive sequence homology, the STIM proteins are functionally distinct. We reveal that the short variable N-terminal random coil sequences of STIM1 and STIM2 confer profoundly different activation properties. Using Orai1-expressing HEK293 cells, chimeric replacement of the 43-amino-acid STIM1 N terminus with that of STIM2 attenuates Orai1-mediated Ca2+ entry and drastically slows store-induced Orai1 channel activation. Conversely, the 55-amino-acid STIM2 terminus substituted within STIM1 strikingly enhances both Orai1-mediated Ca2+ entry and constitutive coupling to activate Orai1 channels. Hence, STIM N termini are powerful coupling modifiers, functioning in STIM2 to “brake” the otherwise constitutive activation of Orai1 channels afforded by its high sensitivity to luminal Ca2+.

机译：STIM1和STIM2是动态跨膜内质网Ca2 +传感器，直接耦合以激活质膜Orai Ca2 +进入通道。尽管具有广泛的序列同源性，但STIM蛋白在功能上却截然不同。我们揭示了STIM1和STIM2的短可变N端随机线圈序列赋予了截然不同的激活特性。使用表达Orai1的HEK293细胞，用STIM2嵌合替换43个氨基酸的STIM1 N末端会减弱Orai1介导的Ca2 +进入，并大大减慢存储诱导的Orai1通道激活。相反，在STIM1中取代的55个氨基酸的STIM2末端显着增强了Orai1介导的Ca2 +进入和本构偶联以激活Orai1通道。因此，STIM N末端是强大的偶联修饰剂，在STIM2中起作用，以“制动” Orai1通道的其他本构性活化，这是由于其对腔内Ca2 +的高度敏感性而提供的。

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Zhou, Yandong; Mancarella, Salvatore; Wang, Youjun; Yue, Chanyu; Ritchie, Michael; Gill, Donald L.; Soboloff, Jonathan;
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年度 2009
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1. Article STIM2 Induces Activated Conformation of STIM1 to Control Orai1 Function in ER-PM Junctions [J] . Krishna Prasad Subedi, Hwei Ling Ong, Ga-Yeon Son, Cell Reports . 2018,第2期

机译：STIM2诱导STIM1的激活构象以控制ER-PM连接处的Orai1功能
2. A minimal regulatory domain in the C terminus of STIM1 binds to and activates ORAI1 CRAC channels. [J] . Kawasaki T, Lange I, Feske S Biochemical and Biophysical Research Communications . 2009,第1期

机译：STIM1的C末端的最小调节域与ORAI1 CRAC通道结合并激活。
3. Transcription Factor NF-κB Regulates Expression of Pore-forming Ca2+ Channel Unit, Orai1, and Its Activator, STIM1, to Control Ca2+ Entry and Affect Cellular Functions [J] . Anja Eylenstein, Sebastian Schmidt, Shuchen Gu, The Journal of biological chemistry . 2012,第4期

机译：转录因子NF-κB调节孔形成Ca2 +通道单元，ORAI1及其活化剂，STIM1的表达，控制CA2 +进入并影响蜂窝功能
4. Electron dynamics and device physics of short-channel HEMTs: transverse-domain formation, velocity overshoot, and short-channel effects [C] . Awano, Y., Kosugi, . 1989

机译：短通道HEMT的电子动力学和器件物理性质：横向畴形成，速度超调和短通道效应
5. Structural features of the voltage-sensing domains of calcium-activated potassium (BK) channels. [D] . Semenova, Nina P. 2009

机译：钙激活钾（BK）通道的电压感应域的结构特征。
6. The Short N-terminal Domains of STIM1 and STIM2 Control the Activation Kinetics of Orai1 Channels [O] . Yandong Zhou, Salvatore Mancarella, Youjun Wang, 2009

机译：STIM1和STIM2的短N末端结构域控制Orai1通道的激活动力学。
7. The short N-terminal domains of STIM1 and STIM2 control the activation kinetics of Orai1 channels. [O] . Zhou, Yandong, Mancarella, Salvatore, Wang, Youjun, 2009

机译：STIM1和STIM2的短N末端结构域控制Orai1通道的激活动力学。

The Short N-terminal Domains of STIM1 and STIM2 Control the Activation Kinetics of Orai1 Channels*

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