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Exploration of CH center dot center dot center dot pi mediated stacking interactions in saccharide: aromatic residue complexes through conformational sampling

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Title Exploration of CH center dot center dot center dot pi mediated stacking interactions in saccharide: aromatic residue complexes through conformational sampling
 
Creator KUMARI, M
SUNOJ, RB
BALAJI, PV
 
Subject Carbohydrates
Conformational analysis
Molecular mechanics
Potential energy surface
Apolar patch
Saccharide specificity
MOLECULAR RECOGNITION
ANALOG COMPLEXES
AQUEOUS-SOLUTION
BINDING-SITES
BENZENE
ENERGETICS
MAGNITUDE
PROTEINS
GLUCOSE
FORCE
 
Description Saccharides interact with aromatic residues mostly through CH center dot center dot center dot pi mediated stacking interactions. The energetics of such interactions depends upon the mutual position-orientations (POs) of the two moieties. The POs found in the crystal structures are only a subset of the various possible ways of interaction. Hence, potential energy surfaces of saccharide-aromatic residue complexes have been explored by mixed Monte Carlo multiple minimum/low mode sampling. The saccharides considered in this study are alpha/beta-D-glucose, beta-D-galactose, alpha-D-mannose, and alpha/beta-L-fucose. p-Hydroxytoluene, toluene, and 3-methylindole were used as analogs of tyrosine, phenylalanine, and tryptophan, respectively. The saccharides interact from either above or below the pi-cloud of an aromatic ring but not along the edges. The POs preferred by different saccharides, both in the preferred chair and skew-boat forms, for interacting with different aromatic amino acid residue analogs have been identified. Aromatic residues can interact with the same -CH group in many POs but not so with the -OH groups. Changes in the configurations of pyranose ring carbon atoms cause remarkable changes in stacking preferences. beta-D-Galactose and beta-L-fructose interact only through their a- and b-faces, respectively. Saccharides use a wide variety of apolar patches for stacking against aromatic residues and these have been analyzed in detail. As many as four -CH groups can simultaneously participate in CH center dot center dot center dot pi interactions, especially with 3-methylindole owing to its larger surface area. (C) 2012 Elsevier Ltd. All rights reserved.
 
Publisher ELSEVIER SCI LTD
 
Date 2014-10-16T05:30:05Z
2014-10-16T05:30:05Z
2012
 
Type Article
 
Identifier CARBOHYDRATE RESEARCH, 361133-140
http://dx.doi.org/10.1016/j.carres.2012.08.015
http://dspace.library.iitb.ac.in/jspui/handle/100/15340
 
Language en