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Calcium binding and conformational properties of calmodulin complexed with peptides derived from myristoylated alanine-rich C kinase substrate (MARCKS) and MARCKS-related protein (MRP) (1997)

Porumb, Tudor ; Crivici, A. ; Blackshear, Perry J. ; [et al.]

Springer

European biophysics journal 25 (1997), S. 239-247

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ISSN: 1432-1017

Keywords: Key words Calmodulin ; MARCKS ; Calcium binding ; NMR

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Physics

Notes: Abstract The myristoylated alanine-rich C kinase substrate (MARCKS) and the MARCKS-related protein (MRP) are members of a distinct family of protein ki-nase C (PKC) substrates that bind calmodulin (CaM) in a manner regulated by Ca2+ and phosphorylation by PKC. The CaM binding region overlaps with the PKC phosphorylation sites, suggesting a potential coupling between Ca2+-CaM signalling and PKC-mediated phosphorylation cascades. We have studied Ca2+ binding of CaM complexed with CaM binding peptides from MARCKS and MRP using flow dialysis, NMR and circular dichroism (CD) spectroscopy. The wild-type MARCKS and MRP peptides induced significant increases in the Ca2+ affinity of CaM (pCa 6.1 and 5.8, respectively, compared to 5.2, for CaM in the absence of bound peptides), whereas a modified MARCKS peptide, in which the four serine residues susceptible to phosphorylation in the wild-type sequence have been replaced with aspartate residues to mimic phosphorylation, had smaller effect (pCa 5.6). These results are consistent with the notions that phosphorylation of MARCKS reduces its binding affinity for CaM and that the CaM binding affinity of the peptides is coupled to the Ca2+ affinity of CaM. All three MARCKS/MRP peptides perturbed the backbone NMR resonances of residues in both the N- and C-terminal domains of CaM and, in addition, the wild-type MARCKS and the MRP peptides induced strong positive cooperativity in Ca2+ binding by CaM, suggesting that the peptides interact with the amino- and carboxy-terminal domains of CaM simultaneously. NMR analysis of the Ca2+-CaM-MRP peptide complex, as well as CD measurements of Ca2+-CaM in the presence and absence of MARCKS/MRP peptides suggest that the peptide bound to CaM is non-helical, in contrast to the α-helical conformation found in the CaM binding regions of myosin light-chain kinase and CaM-dependent protein kinase II. The adaptation of the CaM molecule for binding the peptide requires disruption of its central helical linker between residues Lys-75 and Glu-82.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002490050036

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Estimation of lipid regions in a cytochrome oxidase-lipid complex using spin labeling electron spin resonance: Distribution effects on the spin label (1981)

Benga, Gheorghe ; Porumb, Tudor ; Wrigglesworth, John M.

Springer

Journal of bioenergetics and biomembranes 13 (1981), S. 269-283

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ISSN: 1573-6881

Keywords: Protein-lipid interactions ; cytochrome oxidase ; spin label

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology , Physics

Notes: Abstract The distribution of lipid in the cytochrome oxidase-lipid complex from beef heart mitochondria has been studied by the spin labeling electron spin resonance technique. The spectra of a phospholipid spin label incorporated in the complex reveals an immobilized (on the ESR time scale) component in addition to the fluid component which is found in aqueous dispersions of the extracted lipids. The first component corresponds to the domain of lipid influenced by the protein, and the second component to the remaining lipid. A theory taking into account not only the sizes of the lipid regions in which the spin label molecule distributes itself, but also the different affinities of the label for the two domains, has been developed. Taking advantage of the variation in spectra obtained with increasing amounts of spin label, computer calculations have been performed to estimate the distribution of lipid in the different regions of the cytochrome oxidase-lipid complex. An extrapolation of the amount of immobilized spin-labeled phospholipid to zero concentration of label allows a calculation of the number of fatty acid residues interacting with the protein to be made. It has been found that the number of aliphatic chains influenced by the protein is higher than that calculated for a single boundary layer around the protein. The approach used in this paper can be useful for studies of protein-lipid interactions in other systems.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00743205

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