Topography of cyclodextrin inclusion complexes, Part 46. Crystal structureof hexakis(2,6-di-O-methyl)-alpha-cyclodextrin-acetonitrile dihydrate: a channel formed by methyl groups harbors a chain of five partially occupied water sites (vol 320, pg 120, 1999)
T. Aree et al., Topography of cyclodextrin inclusion complexes, Part 46. Crystal structureof hexakis(2,6-di-O-methyl)-alpha-cyclodextrin-acetonitrile dihydrate: a channel formed by methyl groups harbors a chain of five partially occupied water sites (vol 320, pg 120, 1999), CARBOHY RES, 323(1-4), 2000, pp. 244-253
Hexakis(2,6-di-O-methyl)-alpha-cyclodextrin (DIMEA) crystallizes from 1:1 w
ater-acetonitrile as DIMEA-acetonitrile-dihydrate in the orthorhombic space
group P2(1)2(1)2(1), unit cell dimensions a=14.2775(5), b=15.7312(5), c =
31.1494(11) Angstrom. Refinement of the structure against 5540 X-ray diffra
ction data converged at an R factor of 0.083. The macrocycle exhibits a 'ro
und' conformation and is stabilized by intramolecular, interglucose O-3-H(n
)... O-2(n + 1) and C-6-H(n)... O-5(n + 1) hydrogen bonds. Acetonitrile is
included in the central cavity of DIMEA and held in position by C-5-H ... N
interactions. The two water molecules in the asymmetric units are distribu
ted over six sites. One is fully occupied due to hydrogen bonding to O-3 gr
oups of two symmetry-related DIMEA molecules, whereas the five remaining si
tes show occupancies between 0.15 and 0.25. These sites are in hydrogen bon
ding contact with O ... O distances between 2.59 and 3.50 Angstrom and are
located in infinite, hydrophobic channels parallel to the a-axis, which are
coated with methyl groups of symmetry-related DIMEA. (C) 1999 Elsevier Sci
ence Ltd. All rights reserved.