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  • Title: Regulatory and structural EF-hand motifs of neuronal calcium sensor-1: Mg 2+ modulates Ca 2+ binding, Ca 2+ -induced conformational changes, and equilibrium unfolding transitions.
    Author: Aravind P, Chandra K, Reddy PP, Jeromin A, Chary KV, Sharma Y.
    Journal: J Mol Biol; 2008 Feb 29; 376(4):1100-15. PubMed ID: 18199453.
    Abstract:
    Neuronal calcium sensor-1 (NCS-1) is a major modulator of Ca(2+) signaling with a known role in neurotransmitter release. NCS-1 has one cryptic (EF1) and three functional (EF2, EF3, and EF4) EF-hand motifs. However, it is not known which are the regulatory (Ca(2+)-specific) and structural (Ca(2+)- or Mg(2+)-binding) EF-hand motifs. To understand the specialized functions of NCS-1, identification of the ionic discrimination of the EF-hand sites is important. In this work, we determined the specificity of Ca(2+) binding using NMR and EF-hand mutants. Ca(2+) titration, as monitored by [(15)N,(1)H] heteronuclear single quantum coherence, suggests that Ca(2+) binds to the EF2 and EF3 almost simultaneously, followed by EF4. Our NMR data suggest that Mg(2+) binds to EF2 and EF3, thereby classifying them as structural sites, whereas EF4 is a Ca(2+)-specific or regulatory site. This was further corroborated using an EF2/EF3-disabled mutant, which binds only Ca(2+) and not Mg(2+). Ca(2+) binding induces conformational rearrangements in the protein by reversing Mg(2+)-induced changes in Trp fluorescence and surface hydrophobicity. In a larger physiological perspective, exchanging or replacing Mg(2+) with Ca(2+) reduces the Ca(2+)-binding affinity of NCS-1 from 90 nM to 440 nM, which would be advantageous to the molecule by facilitating reversibility to the Ca(2+)-free state. Although the equilibrium unfolding transitions of apo-NCS-1 and Mg(2+)-bound NCS-1 are similar, the early unfolding transitions of Ca(2+)-bound NCS-1 are partially influenced in the presence of Mg(2+). This study demonstrates the importance of Mg(2+) as a modulator of calcium homeostasis and active-state behavior of NCS-1.
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