Structural basis for activation of plasma-membrane Ca 2+ -ATPase by calmodulin
Plasma-membrane Ca -ATPases expel Ca from the cytoplasm and are key regulators of Ca homeostasis in eukaryotes. They are autoinhibited under low Ca concentrations. Calmodulin (CaM)-binding to a unique regulatory domain releases the autoinhibition and activates the pump. However, the structural basis...
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| Veröffentlicht in: | Communications biology 2018-11, Vol.1 (1), p.206 |
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| creator | Nitsche, Julius Josts, Inokentijs Heidemann, Johannes Mertens, Haydyn D Maric, Selma Moulin, Martine Haertlein, Michael Busch, Sebastian Forsyth, V Trevor Svergun, Dmitri I Uetrecht, Charlotte Tidow, Henning |
| description | Plasma-membrane Ca
-ATPases expel Ca
from the cytoplasm and are key regulators of Ca
homeostasis in eukaryotes. They are autoinhibited under low Ca
concentrations. Calmodulin (CaM)-binding to a unique regulatory domain releases the autoinhibition and activates the pump. However, the structural basis for this activation, including the overall structure of this calcium pump and its complex with calmodulin, is unknown. We previously determined the high-resolution structure of calmodulin in complex with the regulatory domain of the plasma-membrane Ca
-ATPase ACA8 and revealed a bimodular mechanism of calcium control in eukaryotes. Here we show that activation of ACA8 by CaM involves large conformational changes. Combining advanced modeling of neutron scattering data acquired from stealth nanodiscs and native mass spectrometry with detailed dissection of binding constants, we present a structural model for the full-length ACA8 Ca
pump in its calmodulin-activated state illustrating a displacement of the regulatory domain from the core enzyme. |
| doi_str_mv | 10.1038/s42003-018-0203-7 |
| format | Article |
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-ATPases expel Ca
from the cytoplasm and are key regulators of Ca
homeostasis in eukaryotes. They are autoinhibited under low Ca
concentrations. Calmodulin (CaM)-binding to a unique regulatory domain releases the autoinhibition and activates the pump. However, the structural basis for this activation, including the overall structure of this calcium pump and its complex with calmodulin, is unknown. We previously determined the high-resolution structure of calmodulin in complex with the regulatory domain of the plasma-membrane Ca
-ATPase ACA8 and revealed a bimodular mechanism of calcium control in eukaryotes. Here we show that activation of ACA8 by CaM involves large conformational changes. Combining advanced modeling of neutron scattering data acquired from stealth nanodiscs and native mass spectrometry with detailed dissection of binding constants, we present a structural model for the full-length ACA8 Ca
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-ATPases expel Ca
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homeostasis in eukaryotes. They are autoinhibited under low Ca
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-ATPase ACA8 and revealed a bimodular mechanism of calcium control in eukaryotes. Here we show that activation of ACA8 by CaM involves large conformational changes. Combining advanced modeling of neutron scattering data acquired from stealth nanodiscs and native mass spectrometry with detailed dissection of binding constants, we present a structural model for the full-length ACA8 Ca
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-ATPases expel Ca
from the cytoplasm and are key regulators of Ca
homeostasis in eukaryotes. They are autoinhibited under low Ca
concentrations. Calmodulin (CaM)-binding to a unique regulatory domain releases the autoinhibition and activates the pump. However, the structural basis for this activation, including the overall structure of this calcium pump and its complex with calmodulin, is unknown. We previously determined the high-resolution structure of calmodulin in complex with the regulatory domain of the plasma-membrane Ca
-ATPase ACA8 and revealed a bimodular mechanism of calcium control in eukaryotes. Here we show that activation of ACA8 by CaM involves large conformational changes. Combining advanced modeling of neutron scattering data acquired from stealth nanodiscs and native mass spectrometry with detailed dissection of binding constants, we present a structural model for the full-length ACA8 Ca
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| source | DOAJ Directory of Open Access Journals; PubMed Central Open Access; EZB-FREE-00999 freely available EZB journals; PubMed Central |
| title | Structural basis for activation of plasma-membrane Ca 2+ -ATPase by calmodulin |
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