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Kim, T.J. (author), Joo, C. (author), Seong, J. (author), Vafabakhsh, R. (author), Botvinick, E.L. (author), Berns, M.W. (author), Palmer, A.E. (author), Wang, N. (author), Ha, T. (author), Jakobsson, E. (author), Sun, J. (author), Wang, Y. (author)It is unclear that how subcellular organelles respond to external mechanical stimuli. Here, we investigated the molecular mechanisms by which mechanical force regulates Ca2+ signaling at endoplasmic reticulum (ER) in human mesenchymal stem cells. Without extracellular Ca2+, ER Ca2+ release is the source of intracellular Ca2+ oscillations induced...journal article 2015
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Kim, SH (author), Joo, C. (author), Seong, A (author), Vafabakshsh, A (author), Botvinick, A (author), Berns, A (author), Palmer, TA (author), Wang, Z. (author), Ha, Seungkyu (author), Jakobsson, ME (author), Sun, M (author)It is unclear that how subcellular organelles respond to external mechanical stimuli. Here, we investigated the molecular mechanisms by which mechanical force regulates Ca2+ signaling at endoplasmic reticulum (ER) in human mesenchymal stem cells. Without extracellular Ca2+, ER Ca2+ release is the source of intracellular Ca2+ oscillations induced...journal article 2015