References about Target Recognition by Calcium-Binding Proteins

References about Target Recognition by Calcium-Binding Proteins

Please note: this is not intended to be a complete listing of references.

Afshar, M., Caves, L.SD., Guimard, L., Hubbard, R.E, Calas, B., Grassy, G., Haiech, J. Investigating the high affinity and low sequence specificity of calmodulin binding to its targets (1994) J Mol Biol 244, 554-571.
No information from this reference is currently stored in the database

Alexander, K.A, Cimler, B.M, Meier, K.E, Storm, D.R Regulation of calmodulin binding to P-57 (1987) J Biol Chem 262, 6108-6113.
No information from this reference is currently stored in the database

Alexander, K.A, Wakim, B.T, Doyle, G.S, Walsh, K.A, Storm, D.R Identification and characterization of the calmodulin-binding domain of neuromodulin, a neurospecific calmodulin-binding protein (1988) J Biol Chem 263, 7544-7549.
No information from this reference is currently stored in the database

Andreasen, T.J, Keller, C.H, LaPorte, D.C, Edelman, A.M, Storm, D.R Preparation of azidocalmodulin: a photoaffinity label for calmodulin-binding proteins (1981) Proc Natl Acad Sci USA 78, 2782-2785.
No information from this reference is currently stored in the database

Baudier, J., Bergeret, E., Bertacchi, N., Weintraub, H., Gagnon, J., Garin, J. Interactions of myogenic bHLH transcription factors with calcium-binding calmodulin and S100a (alpha alpha) proteins (1995) Biochemistry 34, 7834-7846.
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Baudier, J., Delphin, C., Grunwald, D., Khochbin, S., Lawrence, J.J Characterization of the tumor suppressor protein p53 as a protein kinase C substrate and a S100b-binding protein (1992) Proc Natl Acad Sci USA 89, 11627-11631.
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Bayley, P.M, Findlay, W.A, Martin, S.R Target recognition by calmodulin: Dissecting the kinetics and affinity of interaction using short peptide sequences (1996) Protein Sci 5, 1215-1228.
No information from this reference is currently stored in the database

Blumenthal, D.K, Krebs, E.G Preparation and properties of the calmodulin-binding domain of skeletal muscle myosin light chain knase (1987) Methods Enzymol 139, 115-126.
No information from this reference is currently stored in the database

Blumenthal, D.K, Takio, K. ., Edelman, A.M, Charbonneau, H. ., Titani, K. ., Walsh, K.A, Krebs, E.G Identification of the calmodulin-binding domain of skeletal muscle myosin light chain kinase (1985) Proc Natl Acad Sci USA 82, 3187-3191.
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Brandt, P.W, George, S.E, Scachat, F. Calmodulin is intrinsically less effective that troponin C in activating skeletal muscle contraction (1994) FEBS Lett 353, 99-102.
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Campbell, A.P, Sykes, B.D Interaction of troponin I and troponin C: use of the two-dimensional nuclear magnetic resonance transferred nuclear Overhauser effect to determine the structure of teh inhibitory troponin I peptide when bound to skeletal troponin C (1991) J Mol Biol 222, 405-421.
No information from this reference is currently stored in the database

Chapman, E.R, Alexander, K., Vorherr, T., Carofoli, E., Storm, D.R Fluorescence energy transfer analysis of calmodulin-peptide complexes (1992) Biochemistry 31, 12819-12825.
No information from this reference is currently stored in the database

Charbonneau, H., Kuamr, S., Novack, J.P, Blumenthal, D.K, Griffin, P.R, Shabanowitz, J., Hunt, D.F, Beavo, J.A, Walsh, K.A Evidence for domain organization within the 61-kDa calmodulin-dependent cyclic nucleotide phosphodiesterase from bovine brain (1991) Biochemistry 30, 7931-7940.
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Chen, C.-K., Inglese, J., Lefkowitz, R.J, Hurley, J.B Ca2+-dependent interaction of recoverin and rhodopsin kinase (1995) J Biol Chem 270, 18060-18066.
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Chin, D., Means, A.R Methionine to glutamine substitutions in the C-terminal domain of calmodulin impair the activation of three protein kinases (1996) J Biol Chem 271, 30465-30471.
Summary: Describes several single met to gln mutations in CaM and the effect of these mutations on CaMšs ability to activate CaMKIIa, smMLCK, and CaMKIV. All mutants were impaired in their ability to activate at least one of these targets..
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Colbran, R.J, Schworer, C.M, Hashimoto, Y., Fong, Y.-L., Rich, D.P, Smith, M.K, Soderling, T.R Calcium/calmodulin-dependent protein kinase II (1989) Biochem J 258, 313-325.
No information from this reference is currently stored in the database

Colbran, R.J, Soderling, T.R Calcium/calmodulin dependent protein kinase II (1990) Curr Topics Cell Reg 31, 181-221.
No information from this reference is currently stored in the database

Cormier, M.J, Charbonneau, H., Jarrett, H.W Plant and fungal calmodulin: Ca2+-dependent regulation of plant NAD kinase (1981) Cell Calcium 2, 313-331.
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Crivici, A., Ikura, M. Molecular and structural basis of target recognition by calmodulin (1995) Annu Rev Biophys Biomol Struct 24, 85-116.
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Dasgupta, M., Honeycutt, T., Blumenthal, D.K The gamma-subunit of skeletal muscle phosphorylase kinase contains two noncontiguous domains that act in concert to bind calmodulin (1989) J Biol Chem 264, 17156-17163.
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Edman, C.F, George, S.E, Means, A.R, Schulman, H., Yaswen, P. Selective activation and inhibition of calmodulin-dependent enzymes by a calmodulin-like protein found in human epithelial cells (1994) Eur J Biochem 226, 725-730.
Summary: Calmodulin-like protein was found to activate CaMKII, but not calcineurin, nitric oxide synthase, or smMLCK. In fact, it is a competitive inhibitor of smMLCK activation by calmodulin. Based on their data, the authors propose some interesting speculations about the functional role of calmodulin-like proteins..
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Ehrhardt, M.R, Urbauer, J.L, Wand, A.J The energetics and dynamics of molecular recognition by calmodulin (1995) Biochemistry 34, 2731-2738.
No information from this reference is currently stored in the database

Fano, G., Angelella, P., Mariggio, D., Aisa, M.C, Giambanco, I., Donato, R. S-100a0 protein stimulates the basal (Mg2+-activated) adenylate cyclase activity associated with skeletal muscle membranes (1989) FEBS Lett 248, 9-12.
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Farnsworth, C.L, Freshney, N.W, Rosen, L.B, Ghosh, A., Greenberg, M.E, Feig, L.A Calcium activation of Ras mediated by neuronal exchange factor Ras-GRF (1995) Nature 376, 524-527.
Summary: Ras-GRF, a form of Ras thought to be neuron-specifc, is activated by Ca2+ influx. this seems to be mediated by ca2+-dependent binding of CaM to Ras-GRF. The binding of CaM requires an intact IQ motif. However, this IQ motif in Ras-GRF is not exactly like the consensus sequence..
No information from this reference is currently stored in the database

Filipek, A. ., Wodja, U. ., Lesniak, W. . Interaction of calcyclin and its cyanogen bromide fragments with annexin II and glyceraldehyde 3-phosphate dehydrogenase (1995) Int J Biochem Cell Biol 27, 1123-1131.
No information from this reference is currently stored in the database

Filipek, A. ., Wojda, U. . p30, a novel protein target of mouse calcyclin (S100A6) (1996) Biochem J 320, 585-587.
No information from this reference is currently stored in the database

Findlay, W.A, Martin, S.M, Beckingham, K., Bayley, P.M Recovery of native structure by calcium binding site mutants of calmodulin upon binding of sk-MLCK target peptides (1995) Biochemistry 34, 2087-2094.
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Fisher, P.J, Prendergast, F.G, Ehrhardt, M.R, Urbauer, J.L, Wand, A.J, Sedarous, S.S, McCormick, D.J, Buckley, P.J Calmodulin interacts with amphiphillic peptides composed of all D-amino acids (1994) Nature 368, 651-653.
Summary: An interesting study in which calmodulin is found to bind to D-peptides, although with a higher off-rate than to L-peptides.
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Gao, Z.H, Krebs, J., VanBerkum, M.FA., Tang, W.-J., Maune, J.F, Means, A.R, Stull, J.T, Beckingham, K. Activation of four enzymes by two series of calmodulin mutants with point mutations in individual Ca(2+) binding sites (1993) J Biol Chem 268, 20096-20104.
Summary: A study of the ability of CaM mutants in which one of the bidentate Glu ligands has been replaced with Gln or Lys to activate smMLCK, skMLCK, adenyl cyclase, and plasma membrane Ca2+-ATPase.
No information from this reference is currently stored in the database

George, S.E, Su, Z., Fan, D., Means, A.R Calmodulin-cardiac troponin C chimeras (1993) J Biol Chem 268, 25213-25220.
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George, S.E, VanBerkum, M.FA., Ono, T., Cook, R., Hanley, R.M, Putkey, J.A, Means, A.R Chimeric calmodulin-cardiac troponin C proteins differentially activate calmodulin target enzymes (1990) J Biol Chem 265, 9228-9235.
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Giedroc, D.P, Puett, D., Ling, N., Staros, J.V Demonstration by covalent cross-linking of a specific interaction between b-endorphin and calmodulin (1983) J Biol Chem 258, 16-19.
No information from this reference is currently stored in the database

Gimona, M. ., Lando, Z. ., Dolginov, Y. ., Vanderkerckhove, J. ., Kobayashi, R. ., Sobieszek, A. ., Helfman, D.M Ca2+-dependent interaction of S100A2 with muscle and nonmuscle tropomyosin (1997) J Cell Sci 110, 611-621.
No information from this reference is currently stored in the database

Golitsina, N.L, Kordowska, J. ., Wang, C.-W., Lehrer, S.S Ca2+-dependent binding of calcyclin to muscle tropomyosin (1996) Biochem Biophys Res Comm 220, 360-365.
No information from this reference is currently stored in the database

Gopalakrishna, R., Anderson, W.B The effects of chemical modification of calmodulin on Ca(2+)-induced exposure of hydrophobic region. Separation of active and inactive forms of calmodulin (1985) Biochim Biophys Acta 844, 265-269.
No information from this reference is currently stored in the database

Groves, P., Finn, B.E, Kuznicki, J., Forsen, S. A model for target proteins binding to calcium-activated S100 dimers1 (1998) FEBS Lett 421, 175-179.
Summary: Presents a hypothesis about the mode by which S100 proteins interact with targets based on a mutant of calbindin D9k with an insertion in the linker loop.
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Guerini, D., Krebs, J., Carafoli, E. Stimulation of the erythrocyte Ca(2+)-ATPase and of bovine brain cyclic nucleotide phosphodiesterase by chemically modified calmodulin (1987) Eur J Biochem 170, 35-42.
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Hanson, P.I, Schulman, H. Neuronal Ca(2+)/calmodulin-dependent protein kinases (1992) Annu Rev Biochemistry 61, 559-601.
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Ikura, M., Clore, G.M, Gronenborn, A.M, Zhu, G., Klee, C.B, Bax, A. Solution structure of a calmodulin-target peptide complex by multidimensional NMR (1992) Science 256, 632-638.
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Kataoka, M., Head, J.F, Seaton, B.A, Engelman, D.M Melittin binding causes a large calcium-dependent conformational change in calmodulin (1989) Proc Natl Acad Sci USA 86, 6944-6948.
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Kilhoffer, M.-C., Kubina, M., Travers, F., Haiech, J. Use of engineered proteins with internal tryptophan reporter groups and perturbation techniques to probe the mechanism of ligan-protein interactions: investigation of the mechanism of calcium-binding to calmodulin (1992) Biochemistry 31, 8098-8106.
No information from this reference is currently stored in the database

Klenchin, V.A, Calvert, P.D, Bownds, M.D Inhibition of rhodopsin kinase by recoverin (1995) J Biol Chem 270, 16147-16152.
Summary: This paper reports on the inhibition of phophorylation of rhodopsin by calcium-loaded recoverin, most likely by direct inhibition of rhodopsin kinase. Extrapolation of in vitro measurements of the calcium affinity of recoverin to physiological conditions indicates that the inhibition of rhodopsin kinase by calcium-loaded recoverin is physiologically relevent..
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Kube, E. ., Becker, T. ., Weber, K. ., Gerke, V. . Protein-protein interaction studied by site-directed mutagenesis. Characterization of the annexin II-binding site on p11, a member of the S100 protein family (1992) J Biol Chem 267, 14175-14182.
No information from this reference is currently stored in the database

Lee, S.-J., Stull, J.T Calmodulin-dependent regulation of inducible and neuronal nitric-oxide synthase (1998) J Biol Chem 273, 27430-27437.
No information from this reference is currently stored in the database

Liu, Y., Storm, D.R Regulation of free calmodulin levels by neuromodulin: neuron growth and regeneration (1990) Trends Pharmacol Sci 11, 107-111.
Summary: Discussion focuses on the biochemical properties and tissue-specificity of neuromodulin. The interaction of neuromodulin with CaM is also discussed, and a biochemical model is proposed to explain the significance of this interaction..
No information from this reference is currently stored in the database

Lowenstein, C.J, Snyder, S.H Nitric oxide, a novel biologic messenger (1992) Cell 70, 705-707.
No information from this reference is currently stored in the database

Lukas, T.J, Burgess, W.H, Prendergast, F.G, Lau, W., Watterson, D.M Calmodulin binding domains: characterization of a phosphorylation and calmodulin binding site from myosin light chain kinase (1986) Biochemistry 25, 1458-1464.
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Malencik, D.A, Anderson, S.R Binding of hormones and neuropeptides by calmodulin (1983) Biochemistry 22, 1995-2001.
No information from this reference is currently stored in the database

Martin, S.R, Bayley, P.M, Brown, S.E, Porumb, T., Zhang, M., Ikura, M. Spectoscopic characterization of a high-affinity calmodulin-target peptide hybrid molecule (1996) Biochemistry 35, 3508-3517.
No information from this reference is currently stored in the database

Matsushima, N., Izumi, Y., Matsuo, T., Yoshino, H., Ueki, T., Miyake, Y. Binding of Ca(2+) and mastoparan to calmodulin induces a large change in the tertiary structure (1989) J Biochem 105, 883-887.
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Matsuura, I., Kimura, E., Tai, K., Yazawa, M. Mutagenesis of the fourth calcium-binding domain of yeast calmodulin (1993) J Biol Chem 268, 13267-13273.
No information from this reference is currently stored in the database

Meador, W.E, Means, A.R, Quiocho, F. Modulation of calmodulin plasticity in molecular recognition on the basis of x-ray structures (1993) Science 262, 1718-1721.
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Meador, W.E, Means, A.R, Quiocho, F.A Target enzyme recognition by calmodulin: 2.4 angstrom structure of a calmodulin-peptide complex (1992) Science 257, 1251-1255.
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Mercer, J.A, Seperack, P.K, Strobel, M.C, Copeland, N.G, Jenkins, N.A Novel myosin heavy chain encoded by murine dilute coat color locus (1991) Nature 349, 709-713.
No information from this reference is currently stored in the database

Millward, T.A, Heizmann, C.W, Schafer, B.W, Hemmings, B.A Calcium regulation of Ndr protein kinase mediated by S100 calcium-binding proteins (1998) EMBO J 17, 5913-5922.
No information from this reference is currently stored in the database

Minami, H. ., Tokumitsu, H. ., Mizutani, A. ., Watanabe, Y. ., Hidaka, H. . Specific binding of CAP-50 to calcyclin (1992) FEBS Lett 305, 217-219.
No information from this reference is currently stored in the database

Montigiani, S., Neri, G., Neri, P., Neri, D. Alanine substitutions in calmodulin-binding peptides result in unexpected affinity enhancement (1996) J Mol Biol 258, 6-13.
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Munshi, H.G, Burks, D.J, Joyal, J.L, White, M.F, Sacks, D.B Ca(2+) regulates calmodulin binding to IQ motifs in IRS-1 (1996) Biochemistry 35, 15883-15889.
Summary: Demonstrates an interaction between CaM and IRS proteins. These proteins couple the insulin receptor to SH2 domain-containing proteins. The interaction is stronger in the presence of Ca2+ , but still observable in its absence. The authors postulate the involvement of puatative IQ motifs in the interaction of the IRS proteins with CaM..
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Nakashima, K., Maekawa, H., Yazawa, M. Chimeras of yeast and chicken calmodulin demonstrate differences in activation mechanisms of target enzymes (1996) Biochemistry 35, 5602-5610.
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Novack, J.P, Charbonneau, H., Bentley, J.K, Walsh, K.A, Beavo, J.A Sequence comparison of the 63-,61-, and 59-kDa calmodulin-dependent cyclic nucleotide phosphodiesterases (1991) Biochemistry 30, 7940-7947.
No information from this reference is currently stored in the database

O'Neil, K.T, DeGrado, W.F How calmodulin binds its targets: sequence independent recognition of amphiphilic alpha-helices (1990) Trends Biochem Sci 15, 59-64.
Summary: Review summarizing knowledge on how calmodulin recognizes such a wide range of targets. Includes a discussion of the possible role of methionine residues.
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O'Neil, K.T, Erickson-Viitanen, S., DeGrado, W.F Photolabeling of calmodulin with basic, amphiphilic alpha-helical peptides containing p-benzoylphenylalanine (1989) J Biol Chem 264, 14571-14578.
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Ohki, S., Tsuda, S., Joko, S., Yazawa, M., Yagi, K., Hikichi, K. (1)H NMR study of amide proton exchange of calmodulin-mastoparan complex (1991) J Biochem 109, 234-237.
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Okano, H., Cyert, M.S, Ohya, Y. Importance of phenylalanine residues of yeast calmodulin for target binding and activation (1998) J Biol Chem 273, 26375-26382.
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Payne, M.E, Fong, Y.-L., Ono, T., Colbran, R.J, Kemp, B.E, Soderling, T.R, Means, A.R Calcium/calmodulin-dependent protein kinase II: characterization of distinct calmodulin binding and inhibitory domains (1988) J Biol Chem 263, 7190-7195.
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Peersen, O.B, Madsen, T.S, Falke, J.J Intermolecular tuning of calmodulin by target peptides and proteins: Differential effects on ca2+ binding and implications for kinase activation (1997) Protein Sci 6, 794-807.
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Persechini, A., Gansz, K.J, Paresi, R.J A role in enzyme activation for the N-terminal leader sequence in calmodulin (1996) J Biol Chem 271, 19279-19282.
Summary: This paper demonstrates that the n-terminal leader sequence before the first helix of CaM is absolutely required to activate skMLCK. Further mutagenesis studies showed that the tripeptide EEQ (residues 6-8) is responsible for this behavior.
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Persechini, A., Gansz, K.J, Paresi, R.J Activation of myosin light chain kinase and nitric oxide synthase activities by engineered calmodulins with duplicated or exchanged EF hand pairs (1996) Biochemistry 35, 224-228.
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Persechini, A., McMillan, K., Leakey, P. Activation of myosin light chain kinase and nitric oxide synthase activities by calmodulin fragments (1994) J Biol Chem 269, 16148-16514.
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Precheur, B., Munier, H., Mispelter, J., Barzu, O., Craescu, C. (1)H and (15)N characterization of free and bound states if an amphiphilic peptide interacting with calmodulin (1992) Biochemistry 31, 229-236.
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Rety, S. ., Sopkova, J. ., Renouard, M. ., Osterloh, D. ., Gerke, V. ., Tabaries, S. ., Russo-Marie, F. ., Lewit-Bentley, A. . The crystal structure of p11 with the annexin II N-terminal peptide (1999) Nature Struct Biol 6, 89-95.
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Rustandi, R.R, Drohat, A.C, Baldisseri, D.M, Wilder, P.T, Weber, D.J The Ca2+-dependent interaction of S100B(bb) with a peptide derived from p53 (1998) Biochemistry 37, 1951-1960.
Summary: A report of the calcium-dependent interaction of S100B with a peptide derived fromt he tumor suppressor p53. NMR results imply that this peptide interacts with the hinge and the C-terminus of the S100B subunits..
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Seemann, J. ., Weber, K. ., Gerke, V. . Annexin I targets S100C to early endosomes (1997) FEBS Lett 413, 185-190.
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Seemann, J. ., Weber, K. ., Gerke, V. . Structural requirements for annexin I-S100C complex-formation. (1996) Biochem J 319, 123-129.
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Siegenthaler, G. ., Roulin, K. ., Chatellard-Gruaz, D. ., Hotz, R. ., Saurat, J.H, Hellman, U. ., Hagens, G. . A heterocomplex formed by the calcium-binding proteins MRP8 (S100A8) and MRP14 (S100A9) binds unsaturated fatty acids with high affinity (1997) J Biol Chem 272, 9371-9377.
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Sobue, K., Muramoto, Y., Fujita, M., Kakiuchi, S. Purification of a calmodulin-binding protein from chicken gizzard that interacts with F-actin (1981) Proc Natl Acad Sci USA 78, 5652-5653.
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Spera, S.I, Mitsuhiko, I., Bax, A. Measurement of the exchange rates of rapidly exchanging amide protons: Application to the study of calmodulin and its complex with a myosin light chain kinase fragment (1991) J Biomol NMR 1, 155-165.
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Steiner, J.P, Walke, H.TN., Jr., Bennet, V. Calcium/calmodulin inhibits direct binding of spectrin to synaptosomal membranes (1989) J Biol Chem 264, 2783-2791.
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Swanljung-Collins, H., Collins, J.H Ca(2+) stimulates the Mg(2+)-ATPase activity of brush border myosin I with three or four calmodulin light chains but inhibits with less than two bound (1991) J Biol Chem 266, 1312-1319.
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Swindells, M.B, Ikura, M. Pre-formation of the semi-open conformation by the apo-calmodulin C-terminal domain and implications for binding IQ motifs (1996) Nat Struct Biol 3, 501-504.
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Szczesna, D., Guzman, G., Miller, T., Zhao, J., Farokhi, K., Ellemberger, H., Potter, J.D The role of the four Ca2+ binding sites of troponin C in the regulation of skeletal muscle contraction (1996) J Biol Chem 271, 8381-8386.
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Tabernero, L., Taylor, D.A, Chandross, R.J, VanBerkum, M.FA., Means, A.R, Quiocho, F.A, Sack, J.S The structure of a calmodulin mutant with a deletion in the central helix: implications for molecular recognition and protein binding (1997) Structure 5, 613-622.
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Tallant, E.A, Cheung, W.Y Characterization of bovine brain calmodulin-dependent protein phosphatase (1984) Arch Biochem Biophys 232, 269-279.
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Tan, R.-Y., Mabuchi, Y., Grabarek, Z. Blocking the Ca2+-induced conformational transitions in calmodulin with disulfide bonds (1996) J Biol Chem 271, 7479-7483.
Summary: This paper described two calmodulin mutants. One domain is łlocked˛ close by a disulfide bond in each mutant. The mutant with the C-terminal domain locked has decreased Ca2+ affinity in the C-terminal sites, as followed by intrinsic tyrosine fluorescence. Neither mutant is able activate phosphodiesterase or calcineurin..
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Tanaka, T., Hidaka, H. Hydrophobic regions function in calmodulin-enzyme(s) interactions (1980) J Biol Chem 255, 11078-11080.
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Tokumitsu, H. ., Mizutani, A. ., Hidaka, H. . Calcyclin-binding site located on the NH2-terminal domain of rabbit CAP-50 (annexin XI): functional expression of CAP-50 in Escherichia coli (1993) Arch Biochem Biophys 303, 302-306.
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Torok, K., Trentham, D.R Mechanism of 2-chloro-(e-amino-lys(75))-[6-[4-(N,N-diethylamino)phenyl]-1,3,5-triazin-4-y1]calmodulin interactions with smooth muscle myosin light chain kinase and derived peptides (1994) Biochemistry 33, 12807-12820.
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Urbauer, J.L, Short, J.H, Dow, L.K, Wand, A.J Structural analysis of a novel interaction by calmodulin: high-affinity binding of a peptide in the absence of calcium (1995) Biochemistry 34, 8099-8109.
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VanBerkum, M.FV., George, S.E, Means, A.R Calmodulin activation of target enzymes: consequences of deletions in the central helix (1990) J Biol Chem 265, 3750-3756.
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Vassylyev, D.G, Takeda, S., Wakatsuki, S., Maeda, K., Maeda, Y. Crystal structure if troponin C in complex with troponin I fragment at 2.3-A resolution (1998) Proc Natl Acad Sci USA 95, 4847-4852.
Summary: The first high resolution structural information about the TnC-TnI complex. There are two Ca2+ ions bound, to TnC-C. The TnI fragment also binds mostly to TnC-C..
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Vogel, H.J, Zhang, M. Protein engineering and NMR studies of calmodulin (1995) Mol Cell Biochem 149/150, 3-15.
Summary: Review focusing on interaction of calcium-loaded calmodulin with its target peptides. Attention is called to possible roles of the flexible central helix and the methionine rich hydrophobic core in allowing calmodulin to bind to many different targets. .
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Vorherr, T., Knopfel, L., Hofmann, F., Mollner, S., Pfeuffer, T., Carofoli, E. The calmodulin binding domain of nitric oxide synthase and adenylyl cyclase (1993) Biochemistry 32, 6081-6088.
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Walsh, M., Stevens, F.C Chemical modification studies on the Ca(2+)-dependent protein modulator: The role of methionine residues in the activation of cyclic nucleotide phosphodiesterase (1978) Biochemistry 17, 3924-3930.
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Watanabe, M. ., Ando, Y. ., Tokumitsu, H. ., Hidaka, H. . Binding site of annexin XI on the calcyclin molecule (1993) Biochem Biophys Res Commun 196, 1376-1382.
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Wintrode, P.L, Privalov, P.L Energetics of target peptide recognition by calmodulin: a calorimetric study (1997) J Mol Biol 266, 1050-1062.
Summary: The thermodynamic properties of ca2+-loaded calmodulin binding to a target peptide derived from smMLCK were measured. The binding process was found to be driven by enthalpy..
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Yagi, K., Yazawa, M., Minowa, O., Toda, H., Ikura, M., Hikichi, K. Significance of domain structure of calmodulin on the activation of Ca2+-Calmodulin-Regulated Enzymes (1988) Adv Second Messenger Phosphoprotein Res 21, 189-192.
Summary: Proposes that binding of CaM to target peptide switches the two CaM domains to a correlated mode. Ca2+ binding to the N-terminal domain (which only occurs after the C-temrinal domain has been saturated) causes a further conformational change in the C-temrinal domain,a s probed by proton chemical shifts..
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Yoshino, H., Minari, O., Matsushima, N., Ueki, T., Miyake, Y., Matsuo, T., Izumi, Y. Calcium-induced shape change of calmodulin with mastoparan studied by solution X-ray scattering (1989) J Biol Chem 264, 19706-19709.
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Yoshino, H., Wakita, M., Izumi, Y. Calcium-dependent changes in structure of calmodulin with substance P (1993) J Biol Chem 268, 12123-12128.
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Yuan, T. ., Walsh, M.P, Sutherland, C. ., Fabian, H. ., Vogel, H.J Calcium-dependent and -independent interactions of the calmodulin-binding domain of cyclic nucleotide phosphodiesterase with calmodulin (1999) Biochemistry 38, 1446-1455.
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Zeng, F.-Z., Gabius, H.-J. Carbohydrate-binding specificity of calcyclin and its expression in human tissues and leukemic cells (1991) Arch Biochem Biophys 289, 137-144.
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Zeng, F.-Z., Gerke, V. ., Gabius, H.-G. Identification of annexin II, annexin VI and glyceraldehyde-3-phosphate dehydrogenase as calcyclin-binding proteins in bovine heart (1993) Int J Biochem 25, 1019-1027.
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Zhang, M., Li, M., Wang, J.H, Vogel, H.J The effect of met --> leu mutations on calmodulinšs ability to activate cyclic nucleotide phosphodiesterase (1994) J Biol Chem 269, 15546-1552.
Summary: Reports the activity of a series of met to leu mutants of calmodulin, using PDE activation as an assay. Also presents some NMR data indicating that the calcium-loaded structures of the mutants are similar to wildtype..
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Zhang, M., Vogel, H.J Two-dimensional NMR studies of selenomethionyl calmodulin (1994) J Mol Biol 239, 545-554.
Summary: Reports on chemical shift changes of selenium in selenomethionyl calmodulin upon calcium binding and also upon binding of a target peptide..
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Zhang, M., Yuan, T., Aramin, J.M, Vogel, H.J Interaction of calmodulin with its binding domain of rat cerebellar nitric oxide synthase (1995) J Biol Chem 270, 20901-20907.
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Zhou, N., Yuan, T., Mak, A.S, Vogel, H.J NMR studies of caldesmon-calmodulin interaction (1997) Biochemistry 36, 2817-2825.
Summary: Reports NMR and CD studies on the binding of calmodulin to four peptides derived from the putative calmodulin-binding sites of caldesmon.
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Zimmer, D.B, Dubuisson, J.G Identification of an S100 target protein: glycogen phosphorylase (1993) Cell Calcium 14, 323-332.
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Zimmer, D.B, Van Eldik, L.J Identification of a molecular target for the calcium-modulated protein S100. Fructose-1,6-bisphosphate aldolase (1986) J Biol Chem 261, 11424-11428.
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