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  • 1
    Electronic Resource
    Electronic Resource
    Asymmetric Synthesis of 3-Oxacarbacyclin and 3-Oxaisocarbacyclin by a Common Enantioselective Deprotonation Based Route (1998)
    Weinheim : Wiley-Blackwell
    Liebigs Annalen 1998 (1998), S. 805-826 
    Details
    ISSN: 1434-193X
    Keywords: (+)-3-Oxacarbacyclin ; (+)-3-Oxaisocarbacyclin ; Chiral base ; Chiral phosphonoacetate ; Asymmetric synthesis ; Chemistry ; General Chemistry
    Source: Wiley InterScience Backfile Collection 1832-2000
    Topics: Chemistry and Pharmacology
    Notes: Asymmetric total syntheses of 3-oxacarbacyclin (4) and 3-oxaisocarbacyclin (5) have been achieved by a new and common route. The key step of these syntheses is an enantioselective deprotonation of the prochiral ketone 25 with lithium (R,R)-bis(phenylethyl)amide (12) in the presence of LiCl. Treatment of the thus formed enolate 26 with ClSiEt3 gave the enol ether 27 of 92% ee in 94% yield. Deprotonation of the analogous prochiral ketone 9 with 12 in the presence of LiCl followed by reaction of the enolate 13 with ClSiEt3 led to isolation of the silyl enol ether 8b of 92% ee in 95% yield. A study of the deprotonation of 9 with the chiral lithium amides 14-19 showed that 12 in combination with LiCl is the optimal base in terms of enantioselectivity and accessibility. The ω-side chain in 4 and 5 was established by a Mukaiyama reaction of 27 with the unsaturated aldehyde 28, leading to ketone 39 of 90% de, in combination with a stereoselective Pd-catalyzed allylic rearrangement of acetate 47 to the isomeric acetate 48 and a Mitsunobu reaction of the allylic alcohol 49. The key step in the construction of the α-side chain in 4 is a Horner-Wadsworth-Emmons reaction of ketone 7c with the 8-phenylnormenthol-containing phosphonoacetate 56 which gave ester 60 of 90% de. Ester 60 was obtained diastereomerically pure by chromatography in 72% yield from 7c. Reduction of 60 furnished the allylic alcohol 62 which was converted to 4 in a standard fashion. It is at the stage of the α,β-unsaturated ester 60 where divergence into synthesis of 5 was made. Selective isomerization of 60 to the β,γ-unsaturated ester 66 of 97% ie in 91% yield was accomplished by deprotonation of 60 with 12 to enolate 65 and its subsequent regioselective protonation. By a similar reaction sequence the isomeric α,β-unsaturated ester 61 was converted to the ß,γ-unsaturated ester 69 of 97% ie in 88% yield. Reduction of 66 afforded the homoallylic alcohol 71 which was converted to 5 in a standard fashion.
    Type of Medium: Electronic Resource
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    Paper (German National Licenses)
  • 2
    Electronic Resource
    Electronic Resource
    Formal Asymmetric Synthesis of Pentalenolactone E and Pentalenolactone F-2. Construction of the Angular Diquinanoid δ-Lactone (1998)
    Weinheim : Wiley-Blackwell
    Liebigs Annalen 1998 (1998), S. 275-289 
    Details
    ISSN: 1434-193X
    Keywords: Pentalenolactones E and F ; Asymmetric synthesis ; Selenide elimination ; Kauffmann methylenation ; Natural products ; Chemistry ; General Chemistry
    Source: Wiley InterScience Backfile Collection 1832-2000
    Topics: Chemistry and Pharmacology
    Notes: A formal asymmetric synthesis of pentalenolactone E (1b) and pentalenolactone F (1a) has been accomplished. Ozonolysis of the diphenyl-substituted triquinane 3 and Kauffmann methylenation of ketone 5 with WOCl3-2 MeLi yielded the unsubstituted triquinane 9. The crucial rearrangement of the linear triquinanoid lactone 11 to the angular triquinanoid lactone 14a was accomplished using orthoformate and acid in methanol. Subjecting triquinanes 14a/b to the selenoxide method gave triquinene 15. Homologation of γ-lactone 15 to the angular diquinanoid δ-lactone 2 via a Horner-Wadsworth-Emmons or Peterson reaction of hemiacetals 16a/b was, however, not successful. Chemoselective reduction of 14a afforded hemiacetals 21a/b, reaction of which with the phosphonate salt 17a ultimately led to the ketene dithioacetal 22. The angular intermediates 25a/b were obtained from 22 by reduction to give the linear hemiacetals 24a/b, which rearranged to the dithio ortholactones 25a/b in the presence of acid. Introduction of the double bond and deprotection were accomplished via selenation of 25a/b with N,N-diethylbenzeneselenylamide and treatment of selenides 30a/b with silver nitrate. The unsaturated aldehydes 28 and 29 thus obtained were converted to 2 and 31, respectively, by oxidation with manganese dioxide in the presence of sodium cyanide, methanol and acetic acid. Alkene 2 was isolated by crystallization.
    Type of Medium: Electronic Resource
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    Paper (German National Licenses)
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