- Conformation and packing of unsaturated chains in cholesteryl linolelaidate at 123 K.
Conformation and packing of unsaturated chains in cholesteryl linolelaidate at 123 K.
At 123 K, crystals of cholesteryl trans-9-trans-12-octadecadienoate (cholesteryl linolelaidate, C47H76O2) are monoclinic, space group P2(1) with cell dimensions a = 13.03(3), b = 8.76(2), c = 17.90(4) A, beta = 89.7(2) degrees, having two molecules per unit cell. The crystal structure has been determined from 2041 X-ray intensities with sin theta/lambda less than 0.48 A-1, of which 922 gave I greater than 2 sigma(I). The hydrogen atoms were found in a difference Fourier synthesis. Block diagonal least squares refinement assuming isotropic thermal parameters has converged with Rw = 0.13. The molecule is fully extended (length 43.3 A), except for a symmetric bowing in the linolelaidate chain segment which contains the two unconjugated trans ethylenic bonds. The torsion angles at the four C--C bonds adjacent to the C=C bonds are all in the preferred (+/-)-skew range. Chain packing is efficient, without having a regular subcell structure. There is a similarity with the overall conformation of the oleate chains in crystals of cholesteryl oleate. Although chemically disparate, the oleate and linolelaidate chains have similar crystal environments.