Total synthesis of (.+-.)-triptonide and (.+-.)-triptolide - American

Aug 24, 1981 - Although it was not possible to locate the hydride ligand with the X-ray diffraction data, a reasonable position, which is in agreement...
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867

J . A m . Chem. SOC.1982, 104, 867-869

environment (B), in accord with the solid-state crystallographic fTh[~S-(CH~)~Cs1z[~-CO(CH~C(CH~)3)C01C~~~~ (2).14

Although it was not possible to locate the hydride ligand with the X-ray diffraction data, a reasonable position, which is in agreement with the low-temperature N M R data (vide infra), can be inferred from the positions of the other ligands in 1. We define a Cartesian coordinate system which is centered on the U(II1) ion (A) and has the x axis at the intersection of the "equatorial

(CH3)sCs H3C

H

H3

= r

H3C (CH315Cs

2

H

CH3

H

B

girdle" (the plane containing U which bisects the dihedral angle between the two Cs-ring mean planes) and the plane defined by U and the two C5-ring centers-of-gravity (Cga and Cgb). T h e y axis lies in the equatorial girdle parallel to both Cs-ring mean planes. Since steric factors in mononuclear bis(pentamethy1cyclopentadieny1)methyl complexes are known to preclude any substantial displacements of coordinated noncyclopentadienyl atoms from the equatorial girdle,zJ4*15 the hydride ligand must lie in or very near the girdle. The orientation of the dmpe ligand in the equatorial girdle strongly argues that the hydride is in the vicinity of the positivey axis: PI is displaced from the c @ - u - C g b plane by 2.26 A in the direction of the negative y axis while P2 is displaced by 1.01 A in the direction of the positive y axis. In contrast, the X ligands in M[$-(CH3)sCS]2XZ actinide complexes2J4J5are usually symmetrically disposed about the x axis in the equatorial girdle. Therefore the most likely diffractionderived position for the hydride ligand in 1 is in the equatorial girdle between the U-P2 vector and the positive y axis-a position similar to that occupied by C1 in 2.14 The c@-u