Eduardo E. Smolko scite author profile

SynopsisA structure determination of the naturally occrirring marine algal polysaccharide polyp-D-mannuronic acid is described. The structure consists of l e -+ 4e linked o-mannuronic acid chains with the monosaccharide units in the C1 chair conformation. The X-ray fiber diffraction photograph obtained from bundles of fibers prepared forom Fucus vesiculosus !as been in$exed to an orthorhombic unit cell in which a = 7.6 A, b (fiber axis) = 10.4 A, c = 8.6 A, the unit cell containing two disaccharide chain segments with space group P212121.A sheet-like structure involving one intra-chain, one intra-sheet, and one inter-sheet hydrogen bond per monosaccharide is proposed. Features of the chain-packing arrangement are compared with mannan.

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Structural components of alginic acid. II. The crystalline structure of poly‐α‐L‐guluronic acid. Results of X‐ray diffraction and polarized infrared studies

Atkins¹,

Nieduszynski²,

Mackie³

et al. 1973

Biopolymers

185

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synopsisA structural investigation of the marine algal polysaccharide poly-a-L-guluronic acid is described. The molecular chains consist. of 1 + 4 diaxially linked Irguluronic acid residues in the 1C chair conformation and are stabilized in a twofold helii conformation by an intra-molecular O(2)H. . . O(6)D hydrogen-bond. The X-ray fiber diffraction photograph has been indexed to an orthorhombic unit cell in which a = 8.6 & b (fiber axis) = 8.7 A, c = 10.7A.A structure corresponding to the space group P212121 is proposed, in which all intermolecular hydrogen bonds interact with water molecules and in which all oxygen atoms except for the inaccessible bridge oxygens are involved. The relationship between the shape and structure of the polyguluronic acid molecule and its biological function is discussed.

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Radiation synthesis of seroalbumin nanoparticles

Espinoza

Sánchez

Risso

et al. 2012

Radiation Physics and Chemistry

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Crystalline Structures of Alginic Acids

Atkins

Mackie

Smolko

1970

Nature

104

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From microspheres to monoliths: Synthesis of porous supports with tailored properties by radiation polymerization

Grasselli

Smolko

Hargittai

et al. 2001

Nuclear Instruments and Methods in Physics Research Section B:

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Eduardo E. Smolko

Structural components of alginic acid. I. The crystalline structure of poly‐β‐D‐mannuronic acid. Results of X‐ray diffraction and polarized infrared studies

Structural components of alginic acid. II. The crystalline structure of poly‐α‐L‐guluronic acid. Results of X‐ray diffraction and polarized infrared studies

Radiation synthesis of seroalbumin nanoparticles

Crystalline Structures of Alginic Acids

From microspheres to monoliths: Synthesis of porous supports with tailored properties by radiation polymerization

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