Jerzy Giziewicz scite author profile

The conformations and orientations of the glucose and glycerol moieties of a monoglucosyl lipid in hydrated bilayers have been determined in detail by deuterium nuclear magnetic resonance (2H NMR). Multibilayer membranes of 1,2-di-O-tetradecyl-3-O-(beta-D-glucopyranosyl)glycerol (DTGL), of dimyristoylphosphatidylcholine (DMPC), and of a mixture of DTGL and DMPC were oriented between glass plates. The glucolipid was selectively labeled with deuterium on the pyranose ring and at C3 of glycerol, whereas DMPC was labeled at the C4 position of the sn-2 chain. Quadrupolar splittings were measured as a function of the angle between the bilayer normal and the magnetic field direction. The results establish that the director of motional averaging, the direction about which motion and order are axially symmetric, is the bilayer normal for all the head group, the glycerol backbone, and the hydrophobic core. Segmental order parameters were determined to be 0.45, 0.65, and 0.40, respectively, for the various regions of DTGL in the membranes. The latter results indicate that there is some motion on the time scale of 10(5) s-1 about the C1'(glucose)-O-C3(glycerol) glycosidic bond but that its amplitude is very restricted. Comparison of 1H-decoupled and 1H-coupled 2H NMR spectra of the C3-labeled glycolipid gave estimates of the 2H-2H dipolar coupling between the deuterons at this position. The orientation of the glycerol C3 hydroxymethylene subunit was calculated relative to the bilayer normal, and the C2-C3 bond was found to be tilted away from the bilayer normal by 3 +/- 1 degree.(ABSTRACT TRUNCATED AT 250 WORDS)

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Structure and dynamics of a glyceroglycolipid: a deuterium NMR study of head group orientation, ordering, and effect on lipid aggregate structure

Jarrell¹,

Giziewicz²,

Smith³

1986

Biochemistry

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Nucleic acid related compounds. 40. Synthesis and biological activities of 5-alkynyluracil nucleosides

Clercq¹,

Descamps²,

Balzarini³

et al. 1983

J. Med. Chem.

104

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Coupling of terminal alkynes with 5-iodo-1-(2,3,5-tri-O-p-toluyl-beta-D-arabinofuranosyl)uracil and 5-iodo-3',5'-di-O-p-toluyl-2'-deoxyuridine proceeded readily in triethylamine with catalytic quantities of bis(triphenylphosphine)-palladium(II) chloride and copper(I) iodide. The resulting products were deprotected to give 5-alkynyl-1-beta-D-arabinofuranosyluracil and 5-alkynyl-2'-deoxyuridine nucleosides. The 5-ethynyl, followed by 5-propynyl, products had the highest antiviral potency, with the 2'-deoxy derivatives being more effective than the arabinosyl compounds. Activity was weak at hexynyl and disappeared at heptynyl. Inclusion of an omega-hydroxy function diminished the antiviral effect. None of the 5-alkynyluracil nucleosides tested had sufficient selectivity to qualify as a candidate antiviral drug. Several of the compounds exerted an inhibitory action on thymidylate synthetase, with 5-ethynyl-2'-deoxyuridine being the most cytotoxic against L1210 cells.

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Glycolipid membrane surface structure: orientation, conformation, and motion of a disaccharide headgroup

Renou

Giziewicz²,

Smith³

et al. 1989

Biochemistry

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The orientation of the disaccharide headgroup of a lactose-containing lipid, 3-O-(4-O-beta-D-galactopyranosyl-beta-D-glucopyranosyl)-1,2-di-O-tetrade cyl-sn- glycerol (DTLL), relative to the surface of bilayer membranes has been determined via 2H NMR. The lactosyl headgroup is extended away from the membrane surface into the aqueous phase. The headgroup motion has axial symmetry as evidenced by the spectral line shape and order parameter tensor. 2H NMR of oriented multibilayers of DTLL confirms that the director of motional averaging is the bilayer normal. The two sugar residues have segmental order parameters S (glucose, 0.53; galactose, 0.51) which indicate that the headgroup fluctuates about the bilayer normal as a rigid unit. 2H spin-lattice relaxation times T1z for deuterons on each of the two sugar rings are similar, indicating further that there is no substantial motion about the disaccharide linkage within the headgroup. The magnitude of the relaxation times (4 ms) suggests that the rigid body motions of the headgroup are approaching the Larmor frequency; however, they increase with increasing temperature, indicating that the motions are rapid enough to be in the fast motional regime (omega o2 tau c2 less than 1). The conformation about the galactose-glucose intersaccharide linkage, calculated from the 2H NMR data, is shown to differ substantially from those found in X-ray diffraction studies of crystalline lactose and high-resolution NMR studies of methyl lactoside in nonviscous solution. The orientations of the hydroxymethyl groups in the headgroup have been calculated from the 2H NMR data. For the galactosyl residue the data are consistent with the presence of more than one rotamer about the C5"-C6" bond which are in fast exchange on the 2H NMR time scale. The hydroxymethyl group of the glucose residue exists in two rotameric forms about the C5'-C6' bond which have relative populations of ca. 2:1 and which are in slow exchange on the 2H NMR time scale (10(-5) s). The two rotamers differ from those deduced from X-ray crystallography of crystalline lactose and 13C NMR studies of methyl lactoside in solution.

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The dependence of glyceroglycolipid orientation and dynamics on head-group structure

Jarrell

Wand

Giziewicz

et al. 1987

Biochimica et Biophysica Acta (BBA) - Biomembranes

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Jerzy Giziewicz

Determination of conformational properties of glycolipid head groups by deuterium NMR of oriented multibilayers

Structure and dynamics of a glyceroglycolipid: a deuterium NMR study of head group orientation, ordering, and effect on lipid aggregate structure

Nucleic acid related compounds. 40. Synthesis and biological activities of 5-alkynyluracil nucleosides

Glycolipid membrane surface structure: orientation, conformation, and motion of a disaccharide headgroup

The dependence of glyceroglycolipid orientation and dynamics on head-group structure

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