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PDBsum entry 1trf
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Muscle protein
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PDB id
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1trf
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References listed in PDB file
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Key reference
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Title
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Solution structure of the tr1c fragment of skeletal muscle troponin-C.
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Authors
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W.A.Findlay,
F.D.Sönnichsen,
B.D.Sykes.
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Ref.
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J Biol Chem, 1994,
269,
6773-6778.
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PubMed id
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Abstract
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Residues 12-87 (TR1C fragment) of turkey skeletal muscle troponin-C comprises
two helix-loop-helix calcium-binding motifs which are the regulatory
calcium-binding sites in the N-terminal domain of the protein. We have used the
combined distance geometry-simulated annealing protocol DGII (Havel, T. F.
(1991) Prog. Biophys. Mol. Biol. 56, 43-78) to determine the structure of this
76-residue polypeptide in solution from 475 1H NMR-derived distance restraints.
The nuclear Overhauser enhancement-derived distance constraints used in the DGII
protocol were supplemented by introducing generic hydrogen bond distance
restraints for slowly exchanging amide hydrogens in regular secondary structure
elements, by restricting the available phi angle space to -180 degrees to 0
degrees for all residues except glycines, and by tailoring the distance
boundaries used for quantitating the nuclear Overhauser enhancement intensities
to correspond to characteristic distances found in helices. This improved the
geometry of the four helices in the resulting structures. The relative positions
of helices A and B which flank calcium-binding loop 1, helix D which follows
calcium-binding loop 2, and the beta-sheet between the two calcium-binding loops
were well defined and had an overall root-mean-square deviation for 20 converged
structures of 1.4 +/- 0.2 A for backbone atoms. The structure and relative
orientations of these regions are very similar to these of the corresponding
regions of the protein in the crystal structure of intact turkey skeletal
troponin C (Herzberg, O., and James, M. N. G. (1988) Nature 313, 653-659). The
structure of helix C was well defined, but its relative position to the other
helices was not defined. It occupied a range of positions in the set of 20 DGII
structures, the average of which was quite similar to the orientation of helix C
in the x-ray structure. The overall structure of the apo regulatory domain of
troponin-C is therefore not affected by the loss of the N-helix, or the low pH
conditions used for the x-ray structure, but may be more flexible in regions
known to be involved in contacts with other skeletal muscle regulatory proteins.
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