Polysaccharide chains, conformation

IUPAC-IUB Joint Commission on Biochemical Nomenclature (JCBN), Symbols for specifying the conformation of polysaccharide chains (Recommendations 1981), Eur. J. Biochem, 131, 5-7, (1983) Pure Appl. Chem., 55,1269-1272 (1983) ref. 2, pp. 177-179. [Pg.169]

Eur. J. Biochem. (1980) 111, 295-298 Nomenclature of unsaturated monosaccharides Eur. J. Biochem. (1981) 119, 1-3 Nomenclature of branched-chain monosaccharides Eur. J. Biochem. (1981) 119, 5-8 Abbreviated terminology of oligosaccharide chains /. Biol Chem. (1982) 257, 3347-3351 Polysaccharide nomenclature /. Biol Chem. (1982) 257, 3352-3354 Symbols for specifying the conformation of polysaccharide chains... [Pg.83]

The nonbonded energy (van der Waals) is computed for isolated helical amylose chains as a function of the dihedral angles (, relative orientations of the glucose residues in the polysaccharide chain. In conformity with x-ray data, different helical conformations ere proposed for different crystalline modifications of amylose. [Pg.471]

N 142 "Conformational Analysis of Polysaccharides. Part V. The Characterization of Linkage Conformations (Chain Conformations) by Optical Rotation at a... [Pg.473]

N 154 "Comparative Flexibility, Extension, and Conformation of Some Polysaccharide Chains"... [Pg.476]

Symbols for Specifying the Conformation of Polysaccharide Chains http //www. chcm.qmul.ac.uk/iupac/misc/psac.html... [Pg.1091]

Figure 5.1. Notation for torsion angles of biopolymer chains. Torsion angles ( and ift) that affect the main chain conformations of biopolymers are shown for polysaccharide (a), polypeptide (b), and polynucleotide (c) chains according to the IUBMB notation. The two torsion angles, and ij>, specified around the phosphodiesteric bonds of nucleic acids correspond to a and respectively. Reproduced from IUBMB at http //www.chem.gmw. ac.uk/iubmb.

Figure 5.1. Notation for torsion angles of biopolymer chains. Torsion angles (<f> and ift) that affect the main chain conformations of biopolymers are shown for polysaccharide (a), polypeptide (b), and polynucleotide (c) chains according to the IUBMB notation. The two torsion angles, <j> and ij>, specified around the phosphodiesteric bonds of nucleic acids correspond to a and respectively. Reproduced from IUBMB at http //www.chem.gmw. ac.uk/iubmb.

For polysaccharide, choose connectivity (01-C[l-6]), anomer (alpha or beta), isomer (l or d), and conformation (define phi and psi angle with omega = 180). Add sugars (alsohexoses or aldopentoses) to build polysaccharide chain. [Pg.334]

Hourdet, D., and Muller, G. (1991). Solution properties of pectin polysaccharides II. Conformation and molecular size of high galacturonic acid content isolated pectin chains. Carbohydr. Polym. 16 113-135. [Pg.204]

Bock K, Meldal M, Bundle DR, Iversen T, Garegg PJ, Norbeig T, Lindberg AA, Svenson SB (1984) The conformation of Salmonella O-antigenic polysaccharide chains of serogroup A, B and D1 predicted by semi-empirical hard-sphere (HSEA) calculations. Carbohydr Res 130 23-34... [Pg.523]

Rees DA (1970) Conformational analysis of polysaccharides. Part V. The characterization of linkage conformations (chain conformations) by optical rotation at a single wavelength. Evidence for a distortion of cyclohexaamylose in aqueous solution. Optical rotation and the amylose conformation. J Chem Soc B 877-884... [Pg.533]

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