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PDBsum entry 2bbn
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Calcium-binding protein
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PDB id
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2bbn
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Contents |
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* Residue conservation analysis
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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 a calmodulin-Target peptide complex by multidimensional nmr.
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Authors
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M.Ikura,
G.M.Clore,
A.M.Gronenborn,
G.Zhu,
C.B.Klee,
A.Bax.
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Ref.
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Science, 1992,
256,
632-638.
[DOI no: ]
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PubMed id
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Abstract
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The three-dimensional solution structure of the complex between calcium-bound
calmodulin (Ca(2+)-CaM) and a 26-residue synthetic peptide comprising the CaM
binding domain (residues 577 to 602) of skeletal muscle myosin light chain
kinase, has been determined using multidimensional heteronuclear filtered and
separated nuclear magnetic resonance spectroscopy. The two domains of CaM
(residues 6 to 73 and 83 to 146) remain essentially unchanged upon complexation.
The long central helix (residues 65 to 93), however, which connects the two
domains in the crystal structure of Ca(2+)-CaM, is disrupted into two helices
connected by a long flexible loop (residues 74 to 82), thereby enabling the two
domains to clamp residues 3 to 21 of the bound peptide, which adopt a helical
conformation. The overall structure of the complex is globular, approximating an
ellipsoid of dimensions 47 by 32 by 30 angstroms. The helical peptide is located
in a hydrophobic channel that passes through the center of the ellipsoid at an
angle of approximately 45 degrees with its long axis. The complex is mainly
stabilized by hydrophobic interactions which, from the CaM side, involve an
unusually large number of methionines. Key residues of the peptide are Trp4 and
Phe17, which serve to anchor the amino- and carboxyl-terminal halves of the
peptide to the carboxyl- and amino-terminal domains of CaM, respectively.
Sequence comparisons indicate that a number of peptides that bind CaM with high
affinity share this common feature containing either aromatic residues or
long-chain hydrophobic ones separated by a stretch of 12 residues, suggesting
that they interact with CaM in a similar manner.
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