Ketones Wieland-Miescher

The so-called Wieland-Miescher ketone is a valuable starting materia) used in the synthesis of steroid hormones. How might you prepare it hom 1,3-cycio-hexanedione ... 

The Robinson annulation is a valuable method for preparing bicyclic and tricyclic structures that can serve as starting materials for the preparation of steroids and terpenes.175 Reaction with 2-methylcyclohexan-l,3-dione gives a compound called the Wieland-Miescher ketone. 

Compound 23-V is known as the Wieland-Miescher ketone and can be obtained by Robinson annulation of 2-methylcyclohexane-l,3-dione. 

Longifolene has also been synthesized from ( ) Wieland-Miescher ketone by a series of reactions that feature an intramolecular enolate alkylation and ring expansion, as shown in Scheme 13.26. The starting material was converted to a dibromo ketone via the Mr-silyl enol ether in the first sequence of reactions. This intermediate underwent an intramolecular enolate alkylation to form the C(7)—C(10) bond. The ring expansion was then done by conversion of the ketone to a silyl enol ether, cyclopropanation, and treatment of the siloxycyclopropane with FeCl3. 

The synthesis of S. J. Danishefsky s group is outlined in Scheme 13.55. The starting material is a protected derivative of the Wieland-Miescher ketone. The oxetane ring is formed early in this synthesis. An epoxide is formed using dimethylsulfonium methylide (Step A-3) and opened to an allylic alcohol in Step A-4. The double bond... 

In contrast to the Johnson s D —> A-ring construction approach, Brown devised an A —> D-ring construction approach [22]. Starting from Wieland-Miescher ketone (30), a common source of the A, B-rings in the de novo synthesis of steroids, the C-ring was introduced via hydrazone allylation, ozonolysis, aldol condensation, and olefin isomerization (31 > 32). The D-ring was assembled by a reductive alkylation... 

In contrast, the so-called bis-nor-Wieland-Miescher ketone (2) is a more complex synthetic problem, since the molecule is a multidissonant system with two dissonant bifunctional group relationships (1,4-D and 1,6-D) and two dissonant cyclopentane rings, besides a 1,5-consonant bifunctional group relationship. Its synthesis was only accomplished 30 years after the synthesis of its consonant homologue [5],... 

In fact, a similar intramolecular cyclisation was studied by Reusch [11] and he found a remarkable methyl substituent effect on the aldol equilibrium. Starting from the cis-decalones 25 (easily prepared from the Wieland-Miescher ketone), in which the angular methyl group prevents isomerisation to the more stable trans-decalone, it was found that other methyl groups may exert profound but less... 

Draw the structures of the bicyclo[3.1.0]hex-2-ene-2-carboxaldehyde, cis-jasmone, the Wieland-Miescher ketone and the bis-nor-analogue -which you may find through the "Subject index"- and ... 

The product in entry 1 of Scheme 2.10 is commonly known as the Wieland-Miescher ketone and is a useful starting material for the preparation of steroids and terpenes. The Robinson annulation to prepare this ketone can be carried out enantioselectively by using the amino acid L-proline to form an enamine intermediate. The 5-enantiomer of the product is obtained in high enantiomeric excess.89 This compound and the corresponding product obtained from cyclopentane-1,3-dione90 are key intermediates in the enantiose-lective synthesis of steroids.91... 

The key intermediate in the synthesis of the derivatives of 19-F3-androstane is the trifluoro analogue of the Wieland-Miescher ketone. Its preparation involves a Diels-Alder reaction between a trifluoromethyi ketone and a siloxy diene. Another original step is the regioselective reduction of a diketone only the ketone function in P of CF3 (probably activated by this substituent) is reduced (Figure 4.6). " Then, a succession of classical reactions leads to derivatives of androstane from the trifluoro analogue of the Wieland-Miescher ketone (Figure 4.7). ... 

Figure 4.6 Synthesis of the trifluoro analogue of the Wieland-Miescher ketone. ...

This was demonstrated by Fukumoto and co-workers in a synthesis of (+)-albicanol (251), a sesquiterpene with potent hsh antifeedant properties (272,273). Oxime 248 [prepared from the (+)-Wieland-Miescher ketone 247] was subjected to cycloaddition using sodium hypochlorite and gave isoxazoline 249 in very good yield (Scheme 6.95). Conversion of 249 into (3-hydroxyketone 250 was again accomplished by the reductive hydrolysis sequence using Raney Ni and trimethyl... 

The amplitude (A) of the exciton Cotton effect is inversely proportional to the square of the interchromophoric distance. Thus, weak exciton split Cotton effects are expected for remote dibenzoates. Nevertheless, exciton Cotton effects were used for the assignment of the configuration of dibenzoates in a steroidal skeleton separated by as many as seven or eight C—C bonds158. In one application, the absolute configuration of Wieland-Miescher ketone (—)-2 was established by the use of the dibenzoate chirality rule for the 4-bromobenzoylated derivatives of the epimeric 1,5-diols 3 and 4, obtained by reduction of (-)-2159. 

Ketoester 145 was prepared starting from Wieland-Miescher ketone in 3 stages with an overall yield of 50%. The reaction of 145 with NaH in HMPA at room temperature for 2 hours, followed by addition of chloromethyl methyl ether gives 146 in 91% yield. 

Water-modified titanium complex, 160 Wichterle reagent, 336 Wieland-Miescher ketone, chromatography, 286... 

Aminocatalysis is a biomimetic strategy used by enzymes such as class I aldolases. Application of aminocatalysis in an asymmetric aldol reaction was reported in the early 1970s. Proline (19) efficiently promoted an intramolecular direct aldol reaction to afford Wieland-Miescher ketone in 93% ee [17,18]. More than 25 years later, in 2000, List, Barbas, and co-workers reported that proline (19) is also effective for intermolecular direct aldol reactions of acetone (le) and various aldehydes 3. Notably, the reaction proceeded smoothly in anhydrous DMSO at an ambient temperature to afford aldol adducts in good yield and in modest to excellent enantioselectivity (up to >99% ee, Scheme 9) [19-22]. The chemical yields and selectivity of proline catalysis are comparable to the best metallic catalysts, although high catalyst loading (30 mol %) is required. Proline (19)... 

The absolute configuration of Wieland-Miescher ketone analogues bearing an angular protected hydroxymethyl group was unambiguously determined after regio- and stereoselective reduction of the saturated ketone function to cis -alcohols and application of the exciton chirality method to bicyclic enone-benzoate chromophoric systems 155-158352. 

Organisms Lactobacillus kefir DSM 20587, Saccharomyces cerevisiae, Candida magnoliae, Bacillus megaterium, Thermoanaerobium brockii, Clostridium beijerinckii, Thermoanaerobacter ethanolicus, Rhodococcus ruber DSM 44541. Solvents ace = acetone iPr = i-PrOH. Substrates WM Wieland-Miescher ketone 4-Me-HP 4-methyl Hajos-Parrish ketone COBE ethyl 4-chloro-3-oxobutanoate. 

Further breakthroughs in enantioselectivity were achieved in the 1970s and 1980s. For example, 1971 saw the discovery of the Hajos-Parrish-Eder-Sauer-Wiechert reaction, i.e. the proline (l)-catalyzed intramolecular asymmetric aldol cyclodehydration of the achiral trione 11 to the unsaturated Wieland-Miescher ketone 12 (Scheme 1.3) [12, 13]. Ketone 12 is an important intermediate in steroid synthesis. 

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