Calcium- and magnesium-dependent conformational states of calmodulin as determined by nuclear magnetic resonance.

[1]  D. Hartshorne,et al.  A Ca2+-and modulator-dependent myosin light chain kinase from non-muscle cells. , 1978, Biochemical and biophysical research communications.

[2]  P. Greengard,et al.  Ca2+-dependent protein phosphorylation system in membranes from various tissues, and its activation by "calcium-dependent regulator". , 1978, Proceedings of the National Academy of Sciences of the United States of America.

[3]  C. Kay,et al.  Chemical modification studies on the Ca 2+ ion-dependent protein modulator: the role of methionine residues in the activation of cyclic nucleotide phosphodiesterase. Appendix: Circular dichroism studies on Ca 2+ ion-dependent protein modulator oxidized with N-chlorosuccinimide , 1978 .

[4]  S. Katz,et al.  Phosphodiesterase protein activator stimulates calcium transport in cardiac microsomal preparations enriched in sarcoplasmic reticulum. , 1978, Biochemical and biophysical research communications.

[5]  S. Rosenfeld,et al.  Proteolytic fragments of troponin C. Localization of high and low affinity Ca2+ binding sites and interactions with troponin I and troponin T. , 1978, The Journal of biological chemistry.

[6]  S. Perry,et al.  The amino acid sequence of the troponin C‐like protein (modulator protein) from bovine uterus , 1978 .

[7]  P. Richman Conformation-dependent acetylation and nitration of the protein activator of cyclic adenosine 3',5'-monophosphate phosphodiesterase. Selective nitration of tyrosine residue 138. , 1978, Biochemistry.

[8]  J. Thornton,et al.  Comparison of the calcium- and magnesium-induced structural changes of troponin--C. A proton magnetic resonance study. , 1978, Biochimica et biophysica acta.

[9]  D. Mercola,et al.  Direct identification of the high and low affinity calcium binding sites of troponin-C. , 1978, Biochemical and biophysical research communications.

[10]  J. Kuźnicki,et al.  Identification of Ca2+‐binding subunit of myosin light chain kinase from skeletal muscle with modulator protein , 1978, FEBS letters.

[11]  J. H. Wang,et al.  The modulator-dependent protein kinase. A multifunctional protein kinase activatable by the Ca2+-dependent modulator protein of the cyclic nucleotide system. , 1978, The Journal of biological chemistry.

[12]  C. Klee,et al.  Conformation-dependent nitration of the protein activator of cyclic adenosine 3',5'-monophosphate phosphodiesterase. , 1978, Biochemistry.

[13]  A. Means,et al.  Sequence homology of the Ca2+-dependent regulator of cyclic nucleotide phosphodiesterase from rat testis with other Ca2+-binding proteins. , 1978, The Journal of biological chemistry.

[14]  D. Hartshorne,et al.  Modulator protein as a component of the myosin light chain kinase from chicken gizzard. , 1978, Biochemistry.

[15]  J. Thornton,et al.  Calcium binding by troponin-C. A proton magnetic resonance study. , 1977, Journal of molecular biology.

[16]  T. Isobe,et al.  Reinvestigation of extremely acidic proteins in bovine brain. , 1977, Biochimica et biophysica acta.

[17]  D. Hartshorne,et al.  Ca2+ and Mg2+ dependent conformations of troponin C as determined by 1H and 19F nuclear magnetic resonance. , 1977, Biochemistry.

[18]  F. Vincenzi,et al.  Phosphodiesterase protein activator mimics red blood cell cytoplasmic activator of (Ca2+-Mg2+)ATPase. , 1977, Biochemical and biophysical research communications.

[19]  M. Walsh,et al.  Chemical modification studies on the Ca2+-dependent protein modulator of cyclic nucleotide phosphodiesterase. , 1977, Biochemistry.

[20]  C. Klee Conformational transition accompanying the binding of Ca2+ to the protein activator of 3',5'-cyclic adenosine monophosphate phosphodiesterase. , 1977, Biochemistry.

[21]  J. Potter,et al.  Effect of Ca2+ binding on troponin C. Changes in spin label mobility, extrinsic fluorescence, and sulfhydryl reactivity. , 1976, The Journal of biological chemistry.

[22]  I. Kuo,et al.  Bovine adrenal medulla troponin-C. Demonstration of a calcium-dependent conformational change. , 1976, The Journal of biological chemistry.

[23]  F. C. Stevens,et al.  Comparison of calcium-binding proteins. Bovine heart and brain protein activators of cyclic nucleotide phosphodiesterase and rabbit skeletal muscle troponin C. , 1976, The Journal of biological chemistry.

[24]  W. Y. Cheung,et al.  Cyclic 3':5'-nucleotide phosphodiesterase. Ca2+ confers more helical conformation to the protein activator. , 1976, The Journal of biological chemistry.

[25]  T. Lynch,et al.  Ca++-dependent formation of brain adenylate cyclase-protein activator complex. , 1976, Biochemical and biophysical research communications.

[26]  C. Dobson,et al.  Pulse methods for the simplification of protein NMR spectra , 1975, FEBS letters.

[27]  B. Sykes,et al.  Complete tyrosine assignments in the high field 1H nuclear magnetic resonance spectrum of the bovine pancreatic trypsin inhibitor. , 1975, Biochemistry.

[28]  F. C. Stevens,et al.  The distribution of the Ca++-dependent protein activator of cyclic nucleotide phosphodiesterase in invertebrates. , 1975, Biochemical and biophysical research communications.

[29]  C. Kay,et al.  Physicochemical studies on the complexes troponin C with troponin T, and reconstituted troponin, and their interaction with calcium ions. , 1974, Biochemistry.

[30]  Y. M. Lin,et al.  Cyclic 3':5'-nucleotide phosphodiesterase. Purification, characterization, and active form of the protein activator from bovine brain. , 1974, The Journal of biological chemistry.

[31]  C. Kay,et al.  Physicochemical studies on the interaction of the calcium-binding protein (troponin C) with the inhibitory protein (troponin I) and calcium ions. , 1974, Biochemistry.

[32]  C. Maury,et al.  Conformational studies on muscular parvalbumins. II. Nuclear magnetic resonance analysis. , 1974, Biochimie.

[33]  S. Kakiuchi,et al.  Mechanism of stimulation of Ca2+ plus Mg2+ -dependent phospodiesterase from rat cerebral cortex by the modulator protein and Ca2+. , 1974, Biochemical and biophysical research communications.

[34]  J. H. Collins,et al.  The amino acid sequence of rabbit skeletal muscle troponin C: Gene replication and homology with calcium ‐binding proteins from carp and hake muscle , 1973, FEBS letters.

[35]  R. Kretsinger,et al.  Carp muscle calcium-binding protein. II. Structure determination and general description. , 1973, The Journal of biological chemistry.

[36]  B. Sykes,et al.  A nuclear magnetic resonance study of bovine pancreatic trypsin inhibitor. Tyrosine titrations and backbone NH groups. , 1973, Biochemistry.

[37]  J. H. Wang,et al.  Purification and properties of the protein activator of bovine heart cyclic adenosine 3',5'-monophosphate phosphodiesterase. , 1973, The Journal of biological chemistry.

[38]  C. Kay,et al.  Hydrodynamic and optical properties of troponin A. Demonstration of a conformational change upon binding calcium ion. , 1972, Biochemistry.

[39]  Y. Kawasaki,et al.  Ca ++ induced conformational changes in the Ca ++ binding component of troponin. , 1972, Biochemical and biophysical research communications.

[40]  U. K. Laemmli,et al.  Cleavage of Structural Proteins during the Assembly of the Head of Bacteriophage T4 , 1970, Nature.

[41]  B. Moore,et al.  Effect of calcium ion on S-100, a protein of the nervous system. , 1969, Biochemistry.

[42]  R. Martin,et al.  Exchange of Carbon-Bound Hydrogen Atoms ortho to the Hydroxyl Group in Tyrosine , 1965, Science.

[43]  C. Kay,et al.  The utility of the nitrotyrosine chromophore as a spectroscopic probe in troponin C and modulator protein. , 1979, Canadian journal of biochemistry.

[44]  J. Kuźnicki,et al.  Distribution of troponin C and protein activator of 3',5'-cyclic nucleotide phosphodiesterase in vertebrate tissues. , 1978, Comparative biochemistry and physiology. C: Comparative pharmacology.