Aldol-type reactions intramolecular

Another example of a [4S+1C] cycloaddition process is found in the reaction of alkenylcarbene complexes and lithium enolates derived from alkynyl methyl ketones. In Sect. 2.6.4.9 it was described how, in general, lithium enolates react with alkenylcarbene complexes to produce [3C+2S] cycloadducts. However, when the reaction is performed using lithium enolates derived from alkynyl methyl ketones and the temperature is raised to 65 °C, a new formal [4s+lcj cy-clopentenone derivative is formed [79] (Scheme 38). The mechanism proposed for this transformation supposes the formation of the [3C+2S] cycloadducts as depicted in Scheme 32 (see Sect. 2.6.4.9). This intermediate evolves through a retro-aldol-type reaction followed by an intramolecular Michael addition of the allyllithium to the ynone moiety to give the final cyclopentenone derivatives after hydrolysis. The role of the pentacarbonyltungsten fragment seems to be crucial for the outcome of this reaction, as experiments carried out with isolated intermediates in the absence of tungsten complexes do not afford the [4S+1C] cycloadducts (Scheme 38). 

Other removal procedures include reaction of the bicyclic lactam 4 with hydride (R6 = H) or an alkyl metal (R6 = alkyl). After hydrolysis of the bicyclic azahemiketal 5, ketoaldehydes or diketones 6 result. These can then be used in intramolecular aldol-type reactions to furnish enantiomerically pure cyclopentenones 7 (n = 1). The same reaction sequence can be used to prepare cyclohexenones (see Table 9)3-6 7l 1 ... 

Intramolecular aldols Tin(II) trifluoromethanesulfonate, 301 Zirconium(IV) propoxide, 352 Aldol-type reactions Homoaldols (using allyl metal reagents)... 

Chromium carbene complexes, 82 Methyl acrylate, 183 (2R,4R)-Pentanediol, 237 Titanium(IV) chloride, 304 Nitroaldols Nitromethane, 199 Intramolecular reactions Methyl acrylate, 183 Other aldol-type reactions Bis(2-pyridinethiolato)tin(II), 40 Alkoxycarbonylation (see Carboalkoxy-lation)... 

Highly stereoselective aldol reactions of lithium ester enolates (LiCR1 R2CC>2R3) with (/0-2-(/ -tolylsulfiny I (cyclohexanone have been attributed to intermediacy of tricoordinate lithium species which involve the enolate and the sulfinyl and carbonyl oxygens of the substrates.43 The O-metallated /<-hydroxyalkanoatcs formed by aldol-type reaction of carbonyl compounds with enolates derived from esters of alkanoic acids undergo spontaneous intramolecular cyclization to /1-lactones if phenyl rather than alkyl esters are used the reaction has also been found to occur with other activated derivatives of carboxylic acids.44... 

Some other directing groups which involve the sp2 nitrogen can also function as a directing group in place of the pyridine ring. The reaction of aromatic imines with CO and ethylene in the presence of Ru3(CO)12 did not stop at the carbonylation step, but rather indenone derivatives were the final products and were formed via an intramolecular aldol-type reaction of the expected carbonylation products in situ (Eq. 27) [44]. The treatment of the reaction mixture with silica gel selectively afforded indenones in good yields. 

Intramolecular Aldol-type Reactions with Sml2... 

Intramolecular Sml2 aldol-type reactions involving a-heteroatom-substituted carbonyl compounds where the group expelled from the starting material is not a halogen have also been carried out. 

An intramolecular bicyclization reaction of the Robinson annelation-type has been reported as an extension of the aldol-type reaction (Eq. 12) [10]. The success of this multi-step reaction might be attributable to both the basicity and acidity of zirconium alkoxide. 

Diazo ketones also possess an electrophilic diazo group, and hence are susceptible to diazo-coupling reactions with suitable soft nucleophiles. Examples are given in equations (11) and (12). Phospha-zines such as (19) are useful synthetic intermediates in their own right. The carbon terminus of the 1,3-dipole possesses nucleophilic properties and can participate in aldol-type reactions with the particularly electrophilic carbonyl groups in 1,2-di- and 1,2,3-tri-carbonyl compounds. Intramolecular condensations occur with greater ease (equation 13). Reaction of diazo ketones of the type summarized in equations (9)-(12) have been thoroughly reviewed. ... 

A second, less used, strategy encompasses the Lewis acid catalyzed intramolecular reaction of a silyl enol ether with a propargyl cation. The latter can be conveniently generated by a cobalt complexed propargyl ether. This complexation strongly helps the carbocation formation. By using cobalt complexation, intramolecular aldol type reactions (for R = OR ) have been accomplished. ... 

Lantanides and Sml2 specifically in carbon-carbon bond formation or for functional group transformation (cyclization, Barbier type reaction, intramolecular coupling, aldol, Evans, Tishenco). 

If a carbonyl group is attached a to position 1 of the pericyclic system, the oxy-Cope rearrangement of divinylcyclohexanes results in the formation of medium ring enolates, which after proton transfer undergo a transannular vinylogeous aldol-type reaction (probably a transannu-lar, intramolecular Michael-type reaction). For example, tricyclic alcohol 4 is obtained via such a reaction sequence from 1 in 45% yield1129. 

Our first specific Wessely oxidation approach is outlined in Scheme 2. Following an aldol-type reaction between an appropriately protected resorcinol fragment and an aldehyde, we expected the Wessely oxidation to selectively dearomatize at the ortho position of both phenols. The intramolecular Diels-Alder cycloaddition reaction was then expected to form the tricyclic core, which could then be converted to the critical tetracyclic cage via a samarium diiodide(II)-type 6-exo-trig ketyl radical cyclization reaction. 

P-Pyranone is not a stable end product of the maltose degradation, but reacts in the presence or absence of amines to give a wide range of advanced products (8). In aqueous solution P-pyranone isomerizes to a certain extent to cyclopentenone (2) (Figure 5). The reversible transformation represents an intramolecular aldol type reaction. 

The decarboxylation of allyl /3-keto carboxylates generates 7r-allylpalladium enolates. Aldol condensation and Michael addition are typical reactions for metal enolates. Actually Pd enolates undergo intramolecular aldol condensation and Michael addition. When an aldehyde group is present in the allyl fi-keto ester 738, intramolecular aldol condensation takes place yielding the cyclic aldol 739 as a main product[463]. At the same time, the diketone 740 is formed as a minor product by /3-eIimination. This is Pd-catalyzed aldol condensation under neutral conditions. The reaction proceeds even in the presence of water, showing that the Pd enolate is not decomposed with water. The spiro-aldol 742 is obtained from 741. Allyl acetates with other EWGs such as allyl malonate, cyanoacetate 743, and sulfonylacetate undergo similar aldol-type cycliza-tions[464]. 

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