Millisecond Time-Resolved Solid-State NMR Reveals a Two-Stage Molecular Mechanism for Formation of Complexes between Calmodulin and a Target Peptide from Myosin Light Chain Kinase
Volume: 142, Issue: 50, Pages: 21220 - 21232
Published: Dec 7, 2020
Abstract
Calmodulin (CaM) mediates a wide range of biological responses to changes in intracellular Ca2+ concentrations through its calcium-dependent binding affinities to numerous target proteins. Binding of two Ca2+ ions to each of the two four-helix-bundle domains of CaM results in major conformational changes that create a potential binding site for the CaM binding domain of a target protein, which also undergoes major conformational changes to form...
Paper Details
Title
Millisecond Time-Resolved Solid-State NMR Reveals a Two-Stage Molecular Mechanism for Formation of Complexes between Calmodulin and a Target Peptide from Myosin Light Chain Kinase
Published Date
Dec 7, 2020
Volume
142
Issue
50
Pages
21220 - 21232
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