Synthese von (+)-Abscisinsäure

Synthesis of (+)-Abscisic Acid . Starting from (4S)-4-hydroxy-2,6,6-trimethylcyclohex-2-enone ( 2 ), a short synthesis of the natural (+)-abscisic acid ((+)- 1 ) has been accomplished.     

Neue Synthese von (−)-(R)-Cembren A,Synthese von (+)-(R)-Cembrenen und (+)-(S)-Cembren

Novel Synthesis of (?)-(R)-Cembrene A, Synthesis of (+)-(R)-Cembrenene and (+)-(S)-Cembrene A novel synthesis of (?)-(R)-cembrene A ((?)- 3 ) was developed using the Sharpless epoxidation for the introduction of the chiral center. Furthermore, the synthesis of (+)-(R)-cembrenene ((+)- 4 ) showed that this cembranoid must have the (R)-configuration and not, as previously reported, the (S)-configuration. Selective hydrogenation of (+)- 4 afforded (+)-(S)-cenibrene ((+)- 5 ).     

(+)-(1S, 3S, 6S, 8S)-und (−)-(1R, 3R, 6R, 8R)-4, 9-Twistadien: Synthese und Bestimmung der absoluten Konfiguration

(+)-(1S, 3S, 6S, 8S)-and (?)-(1R, 3R, 6R, 8R)-4, 9-Twistadiene: Synthesis and Absolute Configuration A synthesis and the determination of the absolute configuration of (+)-(1S, 3S, 6S, 8S)- and (?)-(1R, 3R, 6R, 8R)-4, 9-twistadiene ((+)- and (?)- 4 , respectively) is described. Their chiroptical properties are compared with those of saturated twistane ((+)- and (?)- 5 ) as well as with those of the unsaturated and saturated 2, 7-dioxatwistane analogs (+)- and (?)- 9 , and (+)- and (?)- 10 , respectively, which also are compounds of known absolute configurations.     

Notiz zur Synthese von (E)-12-Hydroxy-10-heptadecensäure, (5E, 10E)-12-Hydroxy-5, 10-heptadecadiensäure und (5Z, 10E)-12-Hydroxy-5,10-heptadecadiensäure

Note on the Synthesis of (E)-12-Hydroxy-10-heptadecenoic Acid, (5E, 10E)-12-Hydroxy-5, 10-heptadienoic Acid and (5Z, 10E)-12-Hydroxy-5,10-heptadienoic Acid The syntheses of two heptadecadienoic and one heptadecenoic acid, compounds which formally may be derived from prostaglandin-like molecules by removal of a C₃-fragment from the five-membered ring, are described.     

Notiz über die Bestimmung der absoluten Konfiguration von (+)-2-Hydroxy-2, 3-dimethylbuttersäure

Note on the Determination of the Absolute Configuration of (+)-2-Hydroxy-2, 3-dimethylbutyric Acid Chemical correlation of the title compound 1 with (S)-3-isopropyl-3-methyl-5-trimethylsilyl-4-penten-2-one ( 2 ) showed (+)- 1 to have (S)-configuration. Key step was the Baeyer-Villiger oxidation of a very hindered, optically active methyl keton to the corresponding acetoxy compound with trifluoroperacetic acid using slightly modified buffer conditions. It is found, that the erythro/threo assignment of an α, α-disubstituted β-hydroxyester intermediate can be based on the observation, that the ¹H-NMR. signal of H? C(β) of the erythro isomer appears at lower field than that of the threo isomer.     

Bemerkungen zur Synthese von 5-Amino-m-xylol-2-sulfonsäure und 5-Amino-m-xylol-4-sulfonsäure

Some comments on the syntheses of 5-amino-m-xylene-2-sulfonic acid and 5-amino-m-xylene-4-sulfonic acid Treatment of 5-amino-m-xylene ( 1 ) with oleum led to a 55:45 mixture of 5-amino-m-xylene-2-sulfonic acid ( 2 ) and 5-amino-m-xylene-4-sulfonic acid ( 3 ). The structure of both isomers was proven by reaction of sulfur dioxide with the diazonium chlorides derived from 2-amino-5-nitro-m-xylene ( 5 ) and 4-amino-5-nitro-m-xylene ( 8 ) giving 5-nitro-m-xylene-2-sulfonyl chloride ( 6 ) and 5-nitro-m-xylene-4-sulfonyl chloride ( 9 ) respectively, followed by hydrolyses to the corresponding sulfonic acids 7 and 10 , and final Béchamp reductions. The sulfonic acid 2 was also prepared by sulfonation of 5-acetylamino-m-xylene ( 4 ) to 5-acetylamino-m-xylene-2-sulfonic acid ( 11 ) and subsequent hydrolysis. A further procedure for the synthesis of 3 was sulfonation of 5-amino-2-chloro-m-xylene ( 12 ) – prepared by Béchamp reduction of 2-chloro-5-nitro-m-xylene ( 13 ) – or of 5-amino-2-bromo-m-xylene ( 15 ) – prepared by bromination of 4 and subsequent hydrolysis – to 5-amino-2-chloro-m-xylene-4-sulfonic acid ( 16 ) and 5-amino-2-bromo-m-xylene-4-sulfonic acid ( 17 ) respectively, followed by hydrogenolysis.