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Store-operated Ca(2+) entry (SOCE) represents a ubiquitous Ca(2+) influx pathway activated by the filling state of intracellular Ca(2+) stores. SOCE is mediated by coupling of STIM1, the endoplasmic reticulum Ca(2+) sensor, to the Orai1 channel. SOCE inactivates during meiosis, partly because of the inability of STIM1 to cluster in response to store depletion. STIM1 has several functional domains, including the Orai1 interaction domain (STIM1 Orai Activating Region (SOAR) or CRAC Activation Domain (CAD)) and STIM1 homomerization domain. When Ca(2+) stores are full, these domains are inactive to prevent constitutive Ca(2+) entry. Here we show, using the Xenopus oocyte as an expression system, that the C-terminal 200 residues of STIM1 are important to maintain STIM1 in an inactive state when Ca(2+) stores are full, through predicted intramolecular shielding of the active STIM1 domains (SOAR/CAD and STIM1 homomerization domain). Interestingly, our data argue that the C-terminal 200 residues accomplish this through a steric hindrance mechanism because they can be substituted by GFP or mCherry while maintaining all aspects of STIM1 function. We further show that STIM1 clustering inhibition during meiosis is independent of the C-terminal 200 residues.
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Pubmed
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Xenbase
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Xenbase
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Pubmed
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Xenbase
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SOAR and the polybasic STIM1 domains gate and regulate Orai channels.
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Pubmed
