Aldols natural products

The 3.8-nonadienoate 91, obtained by dimerization-carbonylation, has been converted into several natural products. The synthesis of brevicomin is described in Chapter 3, Section 2.3. Another royal jelly acid [2-decenedioic acid (149)] was prepared by cobalt carbonyl-catalyzed carbonylation of the terminal double bond, followed by isomerization of the double bond to the conjugated position to afford 149[122], Hexadecane-2,15-dione (150) can be prepared by Pd-catalyzed oxidation of the terminal double bond, hydrogenation of the internal double bond, and coupling by Kolbe electrolysis. Aldol condensation mediated by an organoaluminum reagent gave the unsaturated cyclic ketone 151 in 65% yield. Finally, the reduction of 151 afforded muscone (152)[123]. n-Octanol is produced commercially as described beforc[32]. 

Given the relatively rare appearance of oxetanes in natural products, the more powerful functionality of the Patemo-Biichi reaction is the ability to set the relative stereochemistry of multiple centers by cracking or otherwise derivitizing the oxetane ring. Schreiber noted that Patemo—Btlchi reactions of furans with aldehydes followed by acidic hydrolysis generated product 37, tantamount to a threo selective Aldol reaction. This process is referred to as photochemical Aldolization . Schreiber uses this selectivity to establish the absolute stereochemistry of the fused tetrahydrofuran core 44 of the natural product asteltoxin. ... 

The Pictet-Spengler condensation has been of vital importance in the synthesis of numerous P-carboline and isoquinoline compounds in addition to its use in the formation of alkaloid natural products of complex structure. A tandem retro-aldol and Pictet-Spengler sequence was utilized in a concise and enantioselective synthesis of 18-pseudoyohimbone. Amine 49 cyclized under acidic conditions to give the condensation product 50 in good yield. Deprotection of the ketone produced the indole alkaloid 51. 

Chemoselective reduction of a,(3-epoxy carbonyl compounds to aldols and their analogs by organoseleniums and its application to natural product synthesis 98YGK736. 

This highly convergent synthesis amply demonstrates the utility of Evans s asymmetric aldol and alkylation methodology for the synthesis of polypropionate-derived natural products. By virtue of the molecular complexity and pronounced lability of cytovaricin, this synthesis ranks among the most outstanding synthetic achievements in the macrolide field. 

Like many other antibodies, the activity of antibody 14D9 is sufficient for preparative application, yet it remains modest when compared to that of enzymes. The protein is relatively difficult to produce, although a recombinant format as a fusion vdth the NusA protein was found to provide the antibody in soluble form with good activity [20]. It should be mentioned that aldolase catalytic antibodies operating by an enamine mechanism, obtained by the principle of reactive immunization mentioned above [15], represent another example of enantioselective antibodies, which have proven to be preparatively useful in organic synthesis [21]. One such aldolase antibody, antibody 38C2, is commercially available and provides a useful alternative to natural aldolases to prepare a variety of enantiomerically pure aldol products, which are otherwise difficult to prepare, allovdng applications in natural product synthesis [22]. 

Step. In fact, citranaxanthin and reticulaxanthin, reported as natural carotenoids from citrus, are aldol condensation products formed from P-apo-8-carotenal and P-citraurin, respectively." In such samples, the extraction can be performed with MeOH and EtOAc. 

Domino Michael/aldol addition processes unquestionably represent the largest group of domino transformations. Numerous synthetic applications - for example, in natural product synthesis as well as for the preparation of other bioactive compounds - have been reported. Thus, the procedure is rather flexible and allows the use of many different substrates [12]. In this process it is possible, in theory, to establish up to two new C-C-bonds and three new stereogenic centers in a single step. For example, Collin s group developed a three-component approach. 

Another group of natural products, namely the biologically active lignans of the aryltetralin series - for example, isopodophyllotoxone (2-59), picropodophyllone (2-60), and podophyllotoxin (2-61) (Scheme 2.13) [19] - have also been synthesized using a domino Michael/aldol process. 

The group of Terashima [35] developed an asymmetric domino Michael/aldol process using the chinchona alkaloid (-)-cinchonidine (2-103), to prepare an intermediate for the synthesis of the natural product (-)-huperzine A (2-102) [36] (Scheme 2.22). 

A combination of an aldol reaction and an elimination was used by Pandolfi s group to obtain access to the natural product prelunularin [134], and a domino aldol/aldol sequence was elaborated by the group of West for the synthesis of highly... 

Furthermore, as described by Mori and coworkers, the domino aldol/cyclization reaction of the 3-keto sulfoxide 2-422 with succindialdehyde (2-423) in the presence of piperidine at r.t. afforded the chromone 2-424 which, on heating to 140 °C, underwent a thermal syn-elimination of methanesulfenic acid to provide 2-426 in 22 % overall yield (Scheme 2.100) [227]. This approach was then used for the synthesis of the natural products coniochaetones A (2-425) and B (2-427) [228]. 

A SN reaction-based domino route to clerodane diterpenoid tanabalin (2-488) [258] has been described by Watanabe s group (Scheme 2.111) [259]. This natural product is interesting as it exhibits potent insect antifeedant activity against the pink bollworm, Pectinophora gossypiella, a severe pest of the cotton plant The domino sequence towards the substituted trans-decalin 2-487 as the key scaffold is induced by an intermolecular alkylation of the (5-ke toes ter 2-484 with the iodoalkane 2-483 followed by an intramolecular Michael addition/aldol condensation (Robin-... 

The conversion of primary or secondary nitro compounds into aldehydes or ketones is normally accomplished by use of the Nef reaction, which is one of the most important transformations of nitro compounds. Various methods have been introduced forthis transformation (1) treatment of nitronates with acid, (2) oxidation of nitronates, and (3) reduction of nitroalkenes. Although a comprehensive review is available,3 important procedures and improved methods published after this review are presented in this chapter. The Nef reaction after the nitro-aldol (Henry reaction), Michael addition, or Diels-Alder reaction using nitroalkanes or nitroalkenes has been used extensively in organic synthesis of various substrates, including complicated natural products. Some of them are presented in this chapter other examples are presented in the chapters discussing the Henry reaction (Chapter 3), Michael addition (Chapter 4), and Diels-Alder reaction (Chapter 8). 

Z)-enolates. The product was subjected to selective deprotection of the C4,C4 -methyl ethers with Mgl2, providing the natural structure of hypocrellin A as the major product. The two newly formed stereocenters in the 7-membered ring were determined to conform to the predicted helical (/ -stereochemistry and the syn-aldol stereochemistry. The minor ( )-enolate afforded the anti aldol product, which matched the diastereomeric natural product shiraiachrome A (8). With this step, the first total syntheses of hypocrellin A and shiraiachrome A (symanti = 10 1 syn diastereomer, 92 % ee) were completed. 

It has been suggested15 that apiose [3-(hydroxymethyl)-D-g cero-tetrose] (LVII), a branched-chain pentose,47 originates from the aldol reaction of dihydroxyacetone with glycolaldehyde. The origin of this and all other branched-chain sugars so far encountered in natural products is uncertain, but they may arise from intermediate branched-chain carboxylic acids which are believed to be formed in the fixation of carbon dioxide (see above). 

Schreiber and his coworkers have published extensively over the past decade on the use of this photocycloaddition for the synthesis of complex molecules730 81. Schreiber was the first to recognize that the bicyclic adducts formed in these reactions could be unmasked under acidic conditions to afford threo aldol products of 1,4-dicarbonyl compounds (175 to 176) (Scheme 40). The c -bicyclic system also offers excellent stereocontrol in the addition of various electrophilic reagents (E—X) to the enol ether of these photoadducts on its convex face (175 to 177). This strategy has been exploited in the synthesis of a variety of architecturally novel natural products. 

Feringa and co-workers described the tandem addition-aldol cyclization protocol leading to the formation of 6,6-, 6,7-, and 6,8-annulated bicyclic systems (Scheme 68).39 Using Cu(n)-29 as catalyst and functionalized organozinc reagents as nucleophiles, the conjugate addition reaction followed by aldol cyclization can offer highly enantioselec-tive annulation products (up to 98% ee). This method can be used in the synthesis of carbocyclic compounds, such as steroids, terpenes, and other natural products. 

Finally, several diastereoselective aldol reactions using titanium enolates and carbonyl electrophiles have also been applied to the total synthesis of natural products.69-72... 

Compound a-vinyl-/ -hydroxyimdide 21, which can be used in the total synthesis of natural products, can be prepared through aldol reaction. In most cases of aldol reactions mediated by 21, products of more than 98% de can be obtained (Scheme 3-8).12... 

The frequent occurrence of /Thydroxy carbonyl moiety in a variety of natural products (such as macrolide or ionophore antibiotics or other acetogenics) has stimulated the development of stereocontrolled synthetic methods for these compounds. Indeed, the most successful methods have involved aldol reactions.13... 

Synthesis of the macrolide 6-deoxyerythronolide B 28 is one of the successful demonstrations of double asymmetric induction applied to the construction of complicated natural products.5 Retro synthetic analysis (Scheme 7-7) shows that 28 can be obtained from thio-seco acid 29, which consists of seven propionate building blocks. This is a typical aldol product in which a boron reagent... 

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