Publications by authors named "Blout E"

Article Synopsis
  • The cyclic octapeptide cyclo (Ala-Leu-Pro-Gly)2 exhibits unique conformation and ion-binding properties when studied in acetonitrile using CD and NMR spectroscopy.
  • It shows a strong preference for binding to divalent cations like calcium, magnesium, and barium.
  • The free peptide and its calcium complex have similar structures, characterized by defined beta- and gamma-turns, and the peptide forms stable complexes in a 1:1 or possibly 2:1 ratio with these cations.
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Two related homodetic bicyclic nonapeptides (cyclo Glu-X-Pro-Gly-Lys-X-Pro-Gly)-cyclo (l gamma----5 epsilon), X = Ala(BCP2), X = Leu(BCP3) have been synthesized using conventional solution phase methods involving mixed anhydride coupling reactions starting with appropriately protected naturally occurring amino acids. The conformation and ion binding properties of BCP2 have been studied by nuclear magnetic resonance and circular dichroism techniques. The results of these studies have been compared to those of BCP3.

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Circular dichroism spectroscopy has been used to study the unfolding-refolding process of a cardiotoxin from Taiwan cobra (Naja naja atra) venom upon addition of fluoroalcohols or sodium dodecyl sulfate (SDS) to its aqueous solution. In these experiments, the disulfide bridges remained intact. The unfolding process has been found to be reversible both for fluoroalcohols and for SDS unfolding.

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The membrane conformation of the peptide ionophore gramicidin A is shown by 19F NMR to be described by the N-terminal to N-terminal beta LD helical dimer model proposed by Urry [Urry, D.W. (1971) Proc.

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Circular dichroism spectra of the partially folded trapped intermediates were measured in order to aid in the elucidation of the conformational forces which determine a nonrandom, nonsequential pathway of disulfide bond formation upon refolding of bovine pancreatic trypsin inhibitor. Whatever conformation was responsible for the kinetic rates of the intermediates should be stabilized by the presence of their trapped disulfide bonds. The near-ultraviolet spectra provide considerable information about the environments of the aromatic and disulfide side chains.

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A nonapeptide Ac-His-Phe-Gly-Cys-D-Phe-Ser-Gly-Glu-Cys-NH2 (XI) cyclized through the cysteines at positions 4 and 9 is synthesized as a model active site for the enzyme alpha-chymotrypsin. A CPK model of XI indicates that the peptide will have a high probability of folding into a conformation in which the two beta-phenyls interact to form a hydrophobic site to one side of the cyclohexyl structure, and the Ser-His-Glu side chains form a hydrogen bonded triad over the plane of cyclopeptidyl structure. Substrates can then bind at the hydrophobic pocket formed by the beta-phenyls and be acted upon by the Ser-His-Glu catalytic triad, as in the enzyme.

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Circular dichroism and nuclear magnetic resonance spectroscopies have been used to study the unfolding process of cobrotoxin upon addition of fluoro alcohols/or sodium dodecyl sulfate to its aqueous solution. In each final unfolded state, the protein had its disulfide bonds intact. The unfolding process has been found to be reversible in the case of fluoro alcohol/water mixtures, while no such reversibility was found in the case of sodium dodecyl sulfate.

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As part of a conformational study of the pathway of unfolding and refolding of bovine pancreatic trypsin inhibitor that accompanies breakage and formation of its three disulfide bonds, circular dichroism spectra have been measured for several limiting conformational states: native and refolded, with the three correct disulfide bonds; the (30--51, 5--55) two-disulfide species trapped during unfolding and refolding, which have a stable nativelike conformation; the fully reduced protein, with no disulfide bonds. Refolded protein with the three correct disulfide bonds has been found to be slightly different from the native protein; this conformational difference could be removed by gently heating the refolded protein. The same difference appears to be present between the two-disulfide intermediates, lacking the 14--38 disulfide bond, produced during unfolding and refolding.

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The intermediates of ribonuclease with one to four disulfide bonds trapped during refolding of the reduced protein have been compared to the fully reduced and native forms of the protein by gel filtration, circular dichroism, and Raman spectroscopy. Correctly refolded ribonuclease is indistinguishable from native protein, while a three-disulfide intermediate has a compact conformation which is very similar, but not identical. In contrast, all other intermediates with one to four disulfide bonds are qualitatively similar to fully reduced ribonuclease by their circular dichroism and Raman spectra, although the disulfide cross-links affect the dimensions of the polypeptide chain.

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The solvent surface accessibilities of the aromatic amino acids of bovine pancreatic trypsin inhibitor have been examined after the protein has been trapped at various stages of unfolding and refolding. Two types of near-ultraviolet difference spectroscopy were used in making these measurements. One type compares the near-ultraviolet spectrum of each protein with the spectrum of the native inhibitor; the other is solvent perturbation spectroscopy.

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We have determined the conformation of the channel-forming polypeptide antibiotic gramicidin A in phosphatidylcholine vesicles by using 13C and 19F NMR spectroscopy. The models previously proposed for the conformation of the dimer channel differ in the surface localization of the NH2 and COOH termini. We have incorporated specific 13C and 19F nuclei at both the NH2, and COOH termini of gramicidin and have used 13C and 19F chemical shifts and spin lattice relaxation time measurements to determine the accessibility of these labels to three paramagnetic NMR probes--two in aqueous solution and one attached to the phosphatidylcholine fatty acid chain9 all of our results indicate that the COOH terminus of gramicidin in the channel is located near the surface of the membrane and the NH2 terminus is buried deep within the lipid bilayer.

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To demonstrate a method by which the conformation of membrane proteins may be determined spectroscopically in model membranes, we determined the structure of a hydrophobic oligopeptide, t-butyloxycarbonylprolylleucylvalylmethyl ester, in phospholipid vesicles by nuclear magnetic resonance, circular dichroism, and infrared spectroscopy. 13C nuclear magnetic resonance and circular dichroism techniques demonstrated that the conformation of this peptide in linear hydrocarbon solutions was essentially identical to its conformation in lipid vesicles. 1H nuclear magnetic resonance and infrared spectroscopy of the peptide in hydrocarbon solution then provided additional high-resolution information concerning the structure of the peptide as found in the hydrophobic portion of the lipid bilayer.

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A 270-MHz 1H nuclear magnetic resonance investigation of an ion-binding cyclic peptide analogue of valinomycin, cyclo(L-Val-Gly-Gly-L-Pro)3, and its cation complexes is reported. In CD2Cl2 and CDCl3, the peptide is proposed to occur in a C3-symmetric conformer with the N--H's of all six glycine residues intramolecularly hydrogen bonded. This conformation is different from the familiar valinomycin bracelet structure and lacks any "cavity".

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The human erythrocyte contains two types of cyclic AMP-dependent protein kinase. The membrane-associated protein kinase holoenzyme can be released intact by hypotonic treatment at alkaline pH. Chromatography on DEAE-cellulose and molecular weight determinations demonstrate that this enzyme is a type I cyclic AMP-dependent protein kinase, while the predominant cyclic AMP-dependent protein kinase found in the cytoplasm is type II.

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