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2JXL

Solution structure of cardiac N-domain troponin C mutant F77W-V82A

Summary for 2JXL
Entry DOI10.2210/pdb2jxl/pdb
Related1AP4
DescriptorTroponin C, slow skeletal and cardiac muscles, CALCIUM ION (2 entities in total)
Functional Keywordsf77w, tryptophan, troponin c, cntnc, calcium, acetylation, muscle protein, polymorphism, structural protein
Biological sourceHomo sapiens (human)
Total number of polymer chains1
Total formula weight10121.36
Authors
Julien, O.,Sun, Y.,Wang, X.,Lindhout, D.A.,Thiessen, A.,Irving, M.,Sykes, B.D. (deposition date: 2007-11-20, release date: 2007-12-04, Last modification date: 2024-05-29)
Primary citationJulien, O.,Sun, Y.B.,Wang, X.,Lindhout, D.A.,Thiessen, A.,Irving, M.,Sykes, B.D.
Tryptophan Mutants of Cardiac Troponin C: 3D Structure, Troponin I Affinity, and in Situ Activity.
Biochemistry, 47:597-606, 2008
Cited by
PubMed Abstract: In situ fluorescence/NMR spectroscopic approaches have been used to elucidate the structure, mobility, and domain orientations of troponin C in striated muscle. This led us to consider complementary approaches such as solid-state NMR spectroscopy. The biophysical properties of tryptophan and Trp-analogues, such as fluorotryptophan or hydroxytryptophan, are often exploited to probe protein structure and dynamics using solid-state NMR or fluorescence spectroscopy. We have characterized Phe-to-Trp mutants in the 'structural' C-domain of cardiac troponin C, designed to immobilize the indole ring in the hydrophobic core of the domain. The mutations and their fluorinated analogues (F104W, F104(5fW), F153W, and F153(5fW)) were shown not to perturb the structural properties of the protein. In this paper, we characterize the mutations F77W and F77W-V82A in the 'regulatory' N-domain of cardiac troponin C. We used NMR to determine the structure and dynamics of the mutant F77W-V82A-cNTnC, which shows a unique orientation of the indole ring. We observed a decrease in calcium binding affinity and a weaker affinity for the switch region of TnI for both mutants. We present force recovery measurements for all of the N- and C-domain mutants reconstituted into skeletal muscle fibers. The F77W mutation leads to a reduction of the in situ force recovery, whereas the C-domain mutants have the same activity as the wild type. These results suggest that the perturbations of the N-domain caused by the Trp mutation disturb the interaction between TnC and TnI, which in turn diminishes the activity in fibers, providing a clear example of the correlation between in vitro protein structures, their interactions, and the resulting in situ physiological activity.
PubMed: 18092822
DOI: 10.1021/bi702056g
PDB entries with the same primary citation
Experimental method
SOLUTION NMR
Structure validation

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