学术运动 |
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研究生信息 |
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学术报告 - CaMKII: a multifunctional mediator of calcium signals |
2016-10-25 | 作者: 【关闭】 |
报告问题: CaMKII: a multifunctional mediator of calcium signals 报告人: Roger J. Colbran, Ph.D. Professor and Interim Chair, Department of Molecular Physiology and Biophysics, Vanderbilt University 主持人: 雷红星 研究员 时间: 2016年10月28日(星期五)上午9:30-11:00 所在: 永利集团11层1104聚会室 报告摘要: Transient changes in intracellular Ca2+ concentrations regulate diverse cellular functions. Cellular responses are often dependent on changes in amplitude, duration, and frequency of these Ca2+ transients. These changes in signal parameters can be integrated by Ca2+/calmodulin-dependent autophosphorylation of dodecameric CaMKII holoenzymes at Thr286. The Thr286 autophosphorylated CaMKII retains Ca2+-independent protein kinase activity that prolongs cellular signaling after cessation of Ca2+ transients. The Colbran lab has focused on testing an over-arching hypothesis that multiple CaMKII-associated proteins (CaMKAPs) target CaMKII holoenzymes to distinct subcellular domains, providing an added layer of regulation by exposing them to different Ca2+ signals and counter-regulatory protein phosphatases. Moreover, CaMKII holoenzymes can be co-localized with different substrates to mediate distinct downstream signals. Several different classes of CaMKAP have been characterized, which interact with CaMKII holoenzymes by distinct mechanisms and exert unique functional effects. Interestingly, several CaMKAPs target CaMKII holoenzymes to plasma membrane ligand- or voltage-gated calcium channels. I will present data showing that the interactions of CaMKII with some of these CaMKAPs are important for feedback regulation of these channels, as well as for downstream signaling in different contexts. 接待加入! |
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