BIOMAT Database Logo BIOMAT Database Logo

Identification and characterization of the calmodulin-binding domain of neuromodulin, a neurospecific calmodulin-binding protein. 1988

K A Alexander, and B T Wakim, and G S Doyle, and K A Walsh, and D R Storm
Department of Pharmacology, School of Medicine, University of Washington, Seattle 98195.

Neuromodulin (formerly designated P-57) is an abundant, neural specific, calmodulin-binding protein which exhibits higher affinity for calmodulin in the absence of free Ca2+ than in the presence of free Ca2+. In this study a series of proteolytic fragments of neuromodulin were systematically screened for calmodulin-Sepharose binding activity. A 9-amino acid fragment, designated M1-C1 and having the sequence RGHITRKKL, was identified as the putative CaM-binding domain of neuromodulin. Two heptadecapeptides, designated FP57-Phe and FP57-Trp, were synthesized, each containing the M1-C1 sequence and the four flanking amino acids from each site. The FP57-Trp peptide contained a tryptophan residue in place of the native phenylalanine. Anti-FP57-Phe antibody binding to neuromodulin was inhibited by preincubation of antibodies with excess FP57-Phe. 125I-CaM gel overlay of neuromodulin was inhibited by anti-FP57-Phe antibodies. Addition of CaM to FP57-Trp increased peptide tryptophanyl fluorescence. In the presence of Ca2+, the stoichiometry of the FP57-Trp.CaM complex was 1:1, FP57-Trp binding to CaM was competitive with neuromodulin. The Ca2+-independent dissociation constant of the FP57-Phe.CaM complex was 0.41 microM. The Ca2+-dependent affinity of the complex could not be measured directly but appeared to be significantly greater than the Ca2+-independent affinity.

UI MeSH Term Description Entries
D009419 Nerve Tissue Proteins Proteins, Nerve Tissue,Tissue Proteins, Nerve
D009682 Magnetic Resonance Spectroscopy Spectroscopic method of measuring the magnetic moment of elementary particles such as atomic nuclei, protons or electrons. It is employed in clinical applications such as NMR Tomography (MAGNETIC RESONANCE IMAGING). In Vivo NMR Spectroscopy,MR Spectroscopy,Magnetic Resonance,NMR Spectroscopy,NMR Spectroscopy, In Vivo,Nuclear Magnetic Resonance,Spectroscopy, Magnetic Resonance,Spectroscopy, NMR,Spectroscopy, Nuclear Magnetic Resonance,Magnetic Resonance Spectroscopies,Magnetic Resonance, Nuclear,NMR Spectroscopies,Resonance Spectroscopy, Magnetic,Resonance, Magnetic,Resonance, Nuclear Magnetic,Spectroscopies, NMR,Spectroscopy, MR
D010446 Peptide Fragments Partial proteins formed by partial hydrolysis of complete proteins or generated through PROTEIN ENGINEERING techniques. Peptide Fragment,Fragment, Peptide,Fragments, Peptide
D002147 Calmodulin A heat-stable, low-molecular-weight activator protein found mainly in the brain and heart. The binding of calcium ions to this protein allows this protein to bind to cyclic nucleotide phosphodiesterases and to adenyl cyclase with subsequent activation. Thereby this protein modulates cyclic AMP and cyclic GMP levels. Calcium-Dependent Activator Protein,Calcium-Dependent Regulator,Bovine Activator Protein,Cyclic AMP-Phosphodiesterase Activator,Phosphodiesterase Activating Factor,Phosphodiesterase Activator Protein,Phosphodiesterase Protein Activator,Regulator, Calcium-Dependent,AMP-Phosphodiesterase Activator, Cyclic,Activating Factor, Phosphodiesterase,Activator Protein, Bovine,Activator Protein, Calcium-Dependent,Activator Protein, Phosphodiesterase,Activator, Cyclic AMP-Phosphodiesterase,Activator, Phosphodiesterase Protein,Calcium Dependent Activator Protein,Calcium Dependent Regulator,Cyclic AMP Phosphodiesterase Activator,Factor, Phosphodiesterase Activating,Protein Activator, Phosphodiesterase,Protein, Bovine Activator,Protein, Calcium-Dependent Activator,Protein, Phosphodiesterase Activator,Regulator, Calcium Dependent
D002148 Calmodulin-Binding Proteins Proteins which bind calmodulin. They are found in many tissues and have a variety of functions including F-actin cross-linking properties, inhibition of cyclic nucleotide phosphodiesterase and calcium and magnesium ATPases. Caldesmon,Calspectin,CaM-BP(80),Caldesmon (77),Calmodulin Binding Proteins,Proteins, Calmodulin-Binding
D002942 Circular Dichroism A change from planar to elliptic polarization when an initially plane-polarized light wave traverses an optically active medium. (McGraw-Hill Dictionary of Scientific and Technical Terms, 4th ed) Circular Dichroism, Vibrational,Dichroism, Circular,Vibrational Circular Dichroism
D000595 Amino Acid Sequence The order of amino acids as they occur in a polypeptide chain. This is referred to as the primary structure of proteins. It is of fundamental importance in determining PROTEIN CONFORMATION. Protein Structure, Primary,Amino Acid Sequences,Sequence, Amino Acid,Sequences, Amino Acid,Primary Protein Structure,Primary Protein Structures,Protein Structures, Primary,Structure, Primary Protein,Structures, Primary Protein
D001345 Autoradiography The making of a radiograph of an object or tissue by recording on a photographic plate the radiation emitted by radioactive material within the object. (Dorland, 27th ed) Radioautography
D001665 Binding Sites The parts of a macromolecule that directly participate in its specific combination with another molecule. Combining Site,Binding Site,Combining Sites,Site, Binding,Site, Combining,Sites, Binding,Sites, Combining
D001667 Binding, Competitive The interaction of two or more substrates or ligands with the same binding site. The displacement of one by the other is used in quantitative and selective affinity measurements. Competitive Binding

Related Publications

K A Alexander, and B T Wakim, and G S Doyle, and K A Walsh, and D R Storm
Mutagenesis of the calmodulin binding domain of neuromodulin.
January 1991, Progress in brain research,
K A Alexander, and B T Wakim, and G S Doyle, and K A Walsh, and D R Storm
Regulation of calmodulin binding to P-57. A neurospecific calmodulin binding protein.
May 1987, The Journal of biological chemistry,
K A Alexander, and B T Wakim, and G S Doyle, and K A Walsh, and D R Storm
Characterization of the calmodulin binding domain of neuromodulin. Functional significance of serine 41 and phenylalanine 42.
January 1991, The Journal of biological chemistry,
K A Alexander, and B T Wakim, and G S Doyle, and K A Walsh, and D R Storm
Protein kinase C substrates from bovine brain. Purification and characterization of neuromodulin, a neuron-specific calmodulin-binding protein.
January 1989, The Journal of biological chemistry,
K A Alexander, and B T Wakim, and G S Doyle, and K A Walsh, and D R Storm
Characterization of the basic amphiphilic alpha-helix calmodulin-binding domain of a 61.5 kDa tobacco calmodulin-binding protein.
February 1997, Biochemistry,
K A Alexander, and B T Wakim, and G S Doyle, and K A Walsh, and D R Storm
Identification and characterization of PRG-1 as a neuronal calmodulin-binding protein.
October 2010, The Biochemical journal,
K A Alexander, and B T Wakim, and G S Doyle, and K A Walsh, and D R Storm
Identification and characterization of a calmodulin-binding domain in Ral-A, a Ras-related GTP-binding protein purified from human erythrocyte membrane.
June 1997, The Journal of biological chemistry,
K A Alexander, and B T Wakim, and G S Doyle, and K A Walsh, and D R Storm
Purification and characterization of a brain-specific protein kinase C substrate, neurogranin (p17). Identification of a consensus amino acid sequence between neurogranin and neuromodulin (GAP43) that corresponds to the protein kinase C phosphorylation site and the calmodulin-binding domain.
January 1991, The Journal of biological chemistry,
K A Alexander, and B T Wakim, and G S Doyle, and K A Walsh, and D R Storm
Identification and characterization of the DNA binding domain of CpG-binding protein.
November 2001, The Journal of biological chemistry,
K A Alexander, and B T Wakim, and G S Doyle, and K A Walsh, and D R Storm
Identification of the calmodulin binding domain of connexin 43.
November 2007, The Journal of biological chemistry,
Copied contents to your clipboard!