Exocyclic synthesis

Imino-4-thiazolines are far more basic than their isomeric 2-aminothiazoles (see Table VI-1). They react with most electrophDic centers through the exocyclic nitrogen and are easily acylated (37, 477, 706) and sulfonated (652). The reaction of 2-imino-3-methyi-4-thiazoline (378) with a-chloracetic anhydride yields 379 (Scheme 217) (707). This exclusive reactivity of the exocyclic nitrogen precludes the direct synthesis of endocyclic quaternary salts of 2-imino-4-thiazolines. although this class of compounds was prepared recently according to Scheme 218 (493). 

Ring fission occurs readily in many of these compounds. For example, azlactones, i.e. 4JT-oxazolin-5-ones containing an exocyclic C=C bond at the 4-position (508), are hydrolyzed to a-benzamido-a,/3-unsaturated acids (509), further hydrolysis of which gives a-keto acids (510). Reduction and subsequent hydrolysis in situ of azlactones is used in the synthesis of a-amino acids e.g. 508 -> 507). 

Morpholine has been used for 5 -phosphate protection in oligonucleotide synthesis and can be cleaved with 0.01 N HCl without significant depurination of bases having free exocyclic amino functions. 

Synthesis of porphyrins with exocyclic rings from cycloalkenopyrroles 95MI3. 

The furanoid vinyl ethers described above are of interest in view of the structure of the nucleoside antibiotic angustmycin A (2) (15) which also contains an exocyclic double bond. As a first step towards the synthesis of analogs of angustmycin A (2), preparation of exocyclic vinyl ethers from hexulofuranoid derivatives was studied. Benzoylation of 2,3 4,6-di-0-isopropylidene-a-L-ryZo-hexulofuranose (44) followed by selective acid hydrolysis of the 4,6-O-isopropylidene group afforded l-0-benzoyl-2,3-0-isopropylidene-a-L-ryZohexulofuranose (45) in 72%... 

If the enone is part of a decalone system, i.e., a / - and an y-substituent are present, on reaction with lithiated areneacetonitriles in THF the exclusive formation of (Tv-substituted decalones is observedl26. The diastereoselectivity at the exocyclic stereogenic center is, however, poor. Applications in the synthesis of anthracyclines are given in the literature127,12S. 

Consecutive Michael additions and alkylations can also be used for the diastereoselective synthesis of 5- and 6-membered ring systems. For instance when 6-iodo-2-hexenoates or 7-iodo-2-heptenoates are employed the enolate of the Michael adduct is stereoselectively quenched in situ to provide the cyclic compound with trans stereochemistry (>94 6 diastereomeric ratio). As the enolate geometry of the Michael donor can be controlled, high stereoselectivity can also be reached towards either the syn or anti configuration at the exocyclic... 

However, exo-selective Diels-Alder reactions are found when a,/J-unsatu-rated exocyclic carbene complexes are used as dienophiles. The fixed s-cis conformation of the vinylcarbene moiety of the complex seems to be responsible for the exo selectivity observed in this reaction. Moreover, the reaction of optically active carbene complexes with 2-morpholino- 1,3-butadienes allows the asymmetric synthesis of spiro compounds [99] (Scheme 53). 

Chalcone dibromides are advantageous intermediates for the preparation of various nitrogen-containing heterocycles (refs. 1-4). In the case of exocyclic a,P-unsaturated ketones, however, only few examples are known concerning the utilization of their dibromides for such purposes (ref. 5). Our aim was, therefore, the synthesis of the dibromides of various exocyclic a,P-unsaturated ketones (ref. 6) and to study their chemical transformations. In our present paper the reaction of such dibromides with azide nucleophile is reported. 

The exocyclic a,P-unsaturated ketones la-h used for the preparation of dibromides 2a-h were E isomers synthesized by known procedures (refs. 7,8). Previously we reported the synthesis of some dibromides (2a,d,g) used here as starting materials, by the bromine addition of the appropriate a,P-unsaturated ketones (la,d,g) (ref. 6). In the case of our present study, compounds lb,c,e,f,h were allowed to react with a small excess of bromine in carbon tetrachloride solution at room temperature for approx. 20 min. to afford the dibromides 2b,c,e,f,h (Eqn. 1) (Table 1). 

This method provides a convenient synthesis of alkenes with the double bond in a relatively unstable position. Thus reduction of the p-toluenesulfonylhydrazones of a,(3-unsaturated aryl ketones and conjugated dienones gives rise to nonconjugated olefins. Unsaturated ketones with endocyclic double bonds produce olefins with double bonds in the exocyclic position. The reduction of p-toluenesulfonylhydrazones of conjugated alkynones furnishes a simple synthesis of 1,3-disubstituted allenes. ... 

The preparation of ketones and ester from (3-dicarbonyl enolates has largely been supplanted by procedures based on selective enolate formation. These procedures permit direct alkylation of ketone and ester enolates and avoid the hydrolysis and decarboxylation of keto ester intermediates. The development of conditions for stoichiometric formation of both kinetically and thermodynamically controlled enolates has permitted the extensive use of enolate alkylation reactions in multistep synthesis of complex molecules. One aspect of the alkylation reaction that is crucial in many cases is the stereoselectivity. The alkylation has a stereoelectronic preference for approach of the electrophile perpendicular to the plane of the enolate, because the tt electrons are involved in bond formation. A major factor in determining the stereoselectivity of ketone enolate alkylations is the difference in steric hindrance on the two faces of the enolate. The electrophile approaches from the less hindered of the two faces and the degree of stereoselectivity depends on the steric differentiation. Numerous examples of such effects have been observed.51 In ketone and ester enolates that are exocyclic to a conformationally biased cyclohexane ring there is a small preference for... 

There are numerous examples of intramolecular Heck reactions,151 such as in Entries 10 to 14. Entry 11 is part of a synthesis of the antitumor agent camptothecin. The Heck reaction gives an 11 1 endocyclic-exocyclic mixture. Entries 12-14 are also steps in syntheses of biologically active substances. Entry 12 is part of a synthesis of maritidine, an alkaloid with cytotoxic properties the reaction in Entry 13 is on a route to galanthamine, a potential candidate for treatment of Alzheimer s disease and Entry 14 is a key step in the synthesis of a potent antitumor agent isolated from a marine organism. 

A recently developed application of the Ramberg-Backlund reaction is the synthesis of C-glycosides. The required thioethers can be prepared easily by exchange with a thiol. The application of the Ramberg-Backlund conditions then leads to an exocyclic vinyl ether that can be reduced to the C-nucleoside.95 Entries 3 and 4 in Scheme 10.6 are examples. The vinyl ether group can also be transformed in other ways. In the synthesis of partial structures of the antibiotic altromycin, the vinyl ether product was subjected to diastereoselective hydroboration. 

Evidently, these or closely related intermediates are accessible and reactive, since the synthesis was successfully achieved as outlined in Scheme 13.28. In addition to the key cationic cyclization in Step D, interesting transformations were carried out in Step E, where a bridgehead tertiary alcohol was reductively removed, and in Step F, where a methylene group, which was eventually reintroduced, had to be removed. The endocyclic double bond, which is strained because of its bridgehead location, was isomerized to the exocyclic position and then cleaved with Ru04/I04. The enolate of the ketone was then used to introduce the C(12) methyl group in Steps F-3 and F-4. 

The final step of this synthesis used a high-temperature acetate pyrolysis to introduce the exocyclic double bond of longifolene. 

Yaodong Huang, while pursuing the synthesis of ( + )-berkelic acid (69), reported a diastereoselective cycloaddition using method H that leads to another type of 5,6-aryloxy spiroketals (Fig. 4.36).32 For example, addition of three equivalents of t-butyl magnesium bromide to alcohol 70 in the presence of the exocyclic enol ether 71 proceeds in a 72% yield to the spiroketal 72 with a 4.5 1 selectivity favoring the endo approach (Fig. 4.36). Additional experiments suggest the bromine atom decreases the HOMO-LUMO band gap and improves diastereoselectivity. 

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