Browsing by Author "Lu, YL"

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    Invited review: probing the structures of muscle regulatory proteins using small-angle solution scattering
    (Wiley-Blackwell, 2011-08-01) Lu, YL; Jeffries, CM; Trewhella, J
    Small-angle X-ray and neutron scattering with contrast variation have made important contributions in advancing our understanding of muscle regulatory protein structures in the context of the dynamic molecular processes governing muscle action. The contributions of the scattering investigations have depended upon the results of key crystallographic, NMR, and electron microscopy experiments that have provided detailed structural information that has aided in the interpretation of the scattering data. This review will cover the advances made using small-angle scattering techniques, in combination with the results from these complementary techniques, in probing the structures of troponin and myosin binding protein C. A focus of the troponin work has been to understand the isoform differences between the skeletal and cardiac isoforms of this major calcium receptor in muscle. In the case of myosin binding protein C, significant data are accumulating, indicating that this protein may act to modulate the primary calcium signals from troponin, and interest in its biological role has grown because of linkages between gene mutations in the cardiac isoform and serious heart disease. (C) 2011 Wiley Periodicals, Inc. Biopolymers 95: 505-516, 2011.
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    The motif of human cardiac myosin-binding protein C is required for its Ca2+-dependent Interaction with calmoduli
    (American Society for Biochemistry and Molecular Biology, 2012-09-07) Lu, YL; Kwan, AH; Jeffries, CM; Guss, JM; Trewhella, J
    The N-terminal modules of cardiac myosin-binding protein C (cMyBP-C) play a regulatory role in mediating interactions between myosin and actin during heart muscle contraction. The so-called "motif," located between the second and third immunoglobulin modules of the cardiac isoform, is believed to modulate contractility via an "on-off" phosphorylation-dependent tether to myosin Delta S2. Here we report a novel Ca2+-dependent interaction between the motif and calmodulin (CaM) based on the results of a combined fluorescence, NMR, and light and x-ray scattering study. We show that constructs of cMyBP-C containing the motif bind to Ca2+/CaM with a moderate affinity (K-D similar to 10 mu M), which is similar to the affinity previously determined for myosin Delta S2. However, unlike the interaction with myosin Delta S2, the Ca2+/CaM interaction is unaffected by substitution with a triphosphorylated motif mimic. Further, Ca2+/CaM interacts with the highly conserved residues (Glu(319)-Lys(341)) toward the C-terminal end of the motif. Consistent with the Ca2+ dependence, the binding of CaM to the motif is mediated via the hydrophobic clefts within the N- and C-lobes that are known to become more exposed upon Ca2+ binding. Overall, Ca2+/CaM engages with the motif in an extended clamp configuration as opposed to the collapsed binding mode often observed in other CaM-protein interactions. Our results suggest that CaM may act as a structural conduit that links cMyBP-C with Ca2+ signaling pathways to help coordinate phosphorylation events and synchronize the multiple interactions between cMyBP-C, myosin, and actin during the heart muscle contraction. © 2012, American Society for Biochemistry and Molecular Biology.