34227-11-7Relevant articles and documents
Stereo and chemical course of acid-catalyzed double bond migration of cholesta-5,7-dien-3β-ol to 5α-cholesta-8,14-dien-3β-ol
Seto, Hideharu,Fujioka, Shozo,Koshino, Hiroyuki,Takatsuto, Suguru,Yoshida, Shigeo
, p. 1697 - 1703 (2007/10/03)
Acid-catalyzed double bond migration of steroid 5,7-dienes to the 5α-8,14-dienes, a well-known reaction in steroid chemistry, was reinvestigated by using cholesta-5,7-dien-3β-ol 1, and the stereo and chemical course of this reaction was detailed. Treatment of 1 with 36% hydrochloric acid in refluxing ethanol for 3 h afforded a 6:11:65:16:2 mixture of dienols (93%): 5α- and 5β-cholesta-6,8(14)-dien-3β-ols 7a,b, 5α- and 5β-cholesta-8,14-dien-3β-ols 2a,b, and 5α-cholesta-14,16-dien-3β-ol 10a, along with a mixture of enones (1.7%): 5β-cholest-8(14)-,5β-cholest-14- and 14-epi-5β-cholest-8-en-3-ones 11-13. The experiments using 7a,b and 2a,b suggested the reaction sequence: 1→7a,b?7,14-dienols 8a,b?2a,b?8(14),15-dienols 9a,b?10a,b, in which 8a,b?9a,b should be also implicated. The initial step, 1 to 7a,b proceeded irreversibly with the stereoselectivity, ca. 7:3 of 5α-H to 5β-H. Dienols 7a, 8a, 2a and 10a with 5α-H were identified, which were equilibrated at 6:0:92:2. Among dienols with 5β-H, only 7b and 2b were identified, which were equilibrated at 2:98, and this interconversion proceeded in competition with an intramolecular hydride shift from the C-3α to C-6α of 7b, leading to the formation of a mixture of enones 11-13. The considerable difference in activation energies between 1→7a,b and 7a,b→8a,b/11-13 realized the predominant formation of 7a,b: by treatment at 30°C for 44 h, 1 gave a 53:27:5:15 mixture (94%) of 7a, 7b, 8a and 2a. The Royal Society of Chemistry 2000.
Synthesis of cholest-5-ene-3β,11α,15β-triol-7-one. A model for the steroid nucleus of oogoniol, a sex hormone of the water mold Achlya
Taylor,Djerassi
, p. 3571 - 3579 (2007/10/15)
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