TY - JOUR
T1 - Two polymorphs of 20-desmethyl-Β-carotene
AU - Helliwell, Madeleine
AU - Liaaen-Jensen, Synnøve
AU - Wilkinson, James
PY - 2008/4/26
Y1 - 2008/4/26
N2 - Two polymorphs of 20-desmethyl-Β-carotene (systematic name: 20-nor-Β,Β-carotene), C39H54, in monoclinic and triclinic space groups, were formed in the same vial by recrystallization from pyridine and water. Each polymorph crystallizes with the complete mol-ecule as the asymmetric unit, and the two polymorphs show differing patterns of disorder. The Β end rings of both polymorphs have the 6-s-cis conformation, and are twisted out of the plane of the polyene chain by angles of -53.2 (8) and 47.3 (8)° for the monoclinic polymorph, and -43.6 (3) and 56.1 (3)° for the triclinic polymorph. The cyclo-hexene end groups are in the half-chair conformation, but the triclinic polymorph shows disorder of one ring. Overlay of the mol-ecules shows that they differ in the degree of nonplanarity of the polyene chains and the angles of twist of the end rings. The packing arrangements of the two polymorphs are quite different, with the monoclinic polymorph showing short inter-molecular contacts of the disordered methyl groups with adjacent polyene chain atoms, and the triclinic polymorph showing π-π stacking inter-actions of the almost parallel polyene chains. The determination of the crystal structures of the two title polymorphs of 20-desmethyl-Β-carotene allows information to be gained regarding the structural effects on the polyene chain, as well as on the end groups, versus that of the parent compound Β-carotene. The absence of the methyl group is known to have an impact on various functions of the title compound. © 2008 International Union of Crystallography.
AB - Two polymorphs of 20-desmethyl-Β-carotene (systematic name: 20-nor-Β,Β-carotene), C39H54, in monoclinic and triclinic space groups, were formed in the same vial by recrystallization from pyridine and water. Each polymorph crystallizes with the complete mol-ecule as the asymmetric unit, and the two polymorphs show differing patterns of disorder. The Β end rings of both polymorphs have the 6-s-cis conformation, and are twisted out of the plane of the polyene chain by angles of -53.2 (8) and 47.3 (8)° for the monoclinic polymorph, and -43.6 (3) and 56.1 (3)° for the triclinic polymorph. The cyclo-hexene end groups are in the half-chair conformation, but the triclinic polymorph shows disorder of one ring. Overlay of the mol-ecules shows that they differ in the degree of nonplanarity of the polyene chains and the angles of twist of the end rings. The packing arrangements of the two polymorphs are quite different, with the monoclinic polymorph showing short inter-molecular contacts of the disordered methyl groups with adjacent polyene chain atoms, and the triclinic polymorph showing π-π stacking inter-actions of the almost parallel polyene chains. The determination of the crystal structures of the two title polymorphs of 20-desmethyl-Β-carotene allows information to be gained regarding the structural effects on the polyene chain, as well as on the end groups, versus that of the parent compound Β-carotene. The absence of the methyl group is known to have an impact on various functions of the title compound. © 2008 International Union of Crystallography.
U2 - 10.1107/S0108270108007816
DO - 10.1107/S0108270108007816
M3 - Article
SN - 0108-2701
VL - 64
SP - o252-o256
JO - Acta Crystallographica Section C: Crystal Structure Communications
JF - Acta Crystallographica Section C: Crystal Structure Communications
IS - 5
ER -