Unsaturated systems esters

A83543A aglycon 595 f. acetic acid 5 acetoxonium ion 538, 762 acetoxymercuration 390 acetylene coupling 268, 275 f. active ester 624 P-acylamino a,p-unsaturated system 111... 

During the coverage period of this chapter, reviews have appeared on the following topics reactions of electrophiles with polyfluorinated alkenes, the mechanisms of intramolecular hydroacylation and hydrosilylation, Prins reaction (reviewed and redefined), synthesis of esters of /3-amino acids by Michael addition of amines and metal amides to esters of a,/3-unsaturated carboxylic acids," the 1,4-addition of benzotriazole-stabilized carbanions to Michael acceptors, control of asymmetry in Michael additions via the use of nucleophiles bearing chiral centres, a-unsaturated systems with the chirality at the y-position, and the presence of chiral ligands or other chiral mediators, syntheses of carbo- and hetero-cyclic compounds via Michael addition of enolates and activated phenols, respectively, to o ,jS-unsaturated nitriles, and transition metal catalysis of the Michael addition of 1,3-dicarbonyl compounds. ... 

Reactions of this type provide major routes to both the monocyclic system and to 1,5-benzothiazepines. In some cases the reactions are single-stage processes but in many cases the intermediate produced by the primary formation of the S—C bond can be isolated. Thus 2-aminoethanethiol reacts with a,/3-unsaturated or j3-halogeno ketones to give (408). Similarly reaction with a,/3-unsaturated acids, esters or acid chlorides and with 3-halogenopropionyl halides gives the 5-oxo derivative (409). 2-Aminoethanethiol also reacts with activated 2-chlorobenzophenones to give 1,4-benzothiazepines. 

Fischli has used a related reagent, Cob(I)alamine,2 obtained by reduction of vitamin B,2 with zinc and acetic acid, as a catalyst for reduction with zinc and acetic acid of various unsaturated systems such as a,/ -unsaturated nitriles,3 esters,4 and carbonyl compounds,5 allylic alcohols and amines,6 and also isolated double bonds.6... 

Epoxy vinyl ester resins are a special class of unsaturated resin. This resin is made by capping an epoxy resin with methacrylic acid and then dissolving in styrene monomer to the desired viscosity. This gives mechanical properties similar to epoxy resins, but the processibility (low viscosity allowing for resin infusion processes) of an unsaturated polyester resin. As with unsaturated vinyl esters, the most common fire retardant vinyl ester resin is based on a resin made from a halogenated system, tetrabromobisphenol A. The level of bromine in the resin and the presence of antimony will determine the fire performance of the resin. These resins are normally used for corrosion resistant equipment or when fire performance and high mechanical properties are required. It is very difficult to get a low smoke value with a brominated vinyl ester resin again due to the fact that bromine... 

Later Julia and coworkers developed another important mode of ring breaking addition of Grignard compounds or reduction converts the ester 22 to the corresponding alcohols which are startingpoints for a cyclopropylcarbinyl/homoallyl cation rearrangement. After acid treatment p/y-unsaturated carbonyl compounds (e.g. 23) can be isolated, which sometimes isomerize to the oc,(3-unsaturated systems 10). 

A. N. Pudovik u. I. V. Konovalova, Addition Reactions of Esters of Phosphorus(III) Acids with Unsaturated Systems, Synthesis 1979, 81. 

Lithium divinyl cuprates. The addition of. inylic cuprates to chiral -y-alkoxy-a,p-unsaturated ketones and esters proceeds with high diastercoselectivity the major product is that in which the vinyl group is anti to the ally lie alkoxyl group. The geometry of the unsaturated system docs not affect the stcrcocheiiiistry of the addition. 

The now classic Farmer-type hydrogen-abstraction Initiation of free radical autoxldatlon accounts for a large portion of the nonenzymlc oxidations of n-3 fatty acids (45). Because fish lipids contain substantial concentrations of EPA and DHA (47-48), they provide many allowed sites (18, 22, 45, 46, 49) of hydroperoxide formations, and thus can account for a large array of decomposition products. Oxidizing model systems of unsaturated methyl esters of fatty acids yielded monohydroperoxides, but also produce dlhydroperoxldes that are formed by cycllzatlon of Intermediate hydroperoxy radicals when suitable H-donatlng antioxidants are not present to quench the free radical reaction (45, 50, 51). Decomposition of monohydroperoxides of fatty acids In model systems yields a very different profile of lower molecular weight products than observed for similar decompositions of dlhydroperoxldes of the same fatty acids (45, 46). 

The formation of carbon-carbon bonds by conjugate addition of carbonucleophiles to a,/3-unsaturated systems has been studied intensively and reviewed over the past few years . Interestingly, applications with simple, unstabilized lithium enolates are relatively rare. Most reported examples are limited to the addition of stabilized enolates, such as those derived from malonates or acetoacetates. Nevertheless, some diastereo- and enantioselective versions of the conjugate addition, even with unstabilized lithium enolates, are well known. In 2004, Tomioka and coworkers studied the influence of a chiral diether (191) on the 1,4-addition of lithium ester enolates (189) to a,-unsaturated ketones (equation 51) . Their investigations showed that good enantioselectivities were obtained with cyclic enones, like 2-cyclopentenone (190) addition to a mixture of 189 and 191 gave the desired 1,4-adduct (R)-192 with 74% ee, but only 47% yield. Unfortunately, also the Peterson product 193 was formed in a yield of 22% by initial 1,2-addition of the enolate to the Michael acceptor. 

Another frequent use of (1) and its enantiomer is the stereospecific conjugate addition of carbonyl compounds to a,p-unsaturated systems. Most published examples contain chiral imine derivatives of cyclic ketones, which add to a,p-unsaturated esters and ketones in a highly stereoselective manner (eq 13 and eq 14). When the ketone is not symmetrically substituted, reaction usually occurs at the most substituted a-position, including those cases where the ketone is a-substituted by oxygen (eq 15). High stereoselectivity can also be achieved when the Michael acceptor is other than an unsaturated ketone or ester, such as a vinyl sulfone (eq 16). Intramolecular variations of this transformation have also been described (eq 17). ... 

If we put two of these functions on the same carbon, in principle, one may be able to produce a maximum of two C-C bonds in reactions with appropriate carbon nucleophiles. Which functions are these Acetals, thioacetals, aminals, a-dihalidcs, and so on. Then, all of them should be FN = 2 groups. This analogy continues with triheterosubstituted (FN = 3) and tetraheterosubstituted (FN = 4) carbon functions. Unsaturated systems are also classifiable in these terms. Every one knows that a ketone can yield two C-C bonds. This circumstance evolves into the realization that the tt and the a bonds of C=X both serve their individual purpose as potential precursors of C-C bonding. This allows the inclusion of imines, thioketones, and diazocompounds as functions capable of forming a maximum of two (FN = 2) C-C bonds. Similarly, esters, imino- and thioesters, and acyl halides display central carbons with FN = 3, while carbonates, carbamates, ureas, and carbon dioxide are all FN = 4 groupings. 

In this lecture, I should like to outline briefiy two pieces of research in coordination chemistry which have held our attention recently. The first of these involves a series of complexes which catalyze the isomerization and hydrogenation of poly-unsaturated systems in a quite specific way. The original goal of the research was to devise a method of hydrogenating the poly-unsaturated esters in soybean oil without producing the fully saturated compounds. 

Organozinc compounds add to conjugated systems. The use of chiral ligands is effective for conjugate addition of diaUcylzinc compounds to a,p-unsaturated ketones, esters, and so on, including conjugated lactones." Many dialkyl-zinc compounds can be used, including vinylzinc compounds.Dialkylzinc... 

Ylides can cyclopropanate unsaturated systems which are susceptible to Michael additions, i.e. a,jS-unsaturated ketones, esters, amides, nitriles, sulfones, sulfonamides, and nitro compounds. Enhancement of electron withdrawal from the carbon-carbon double bond facilitates the reaction. The reaction is non-stereospecific. The intermediacy of zwitterions has generally been accepted, and hence the stereochemistry of the product may be predictable on the basis of the stepwise mechanism. Namely, the Michael addition of the ylide will occur predominantly from the less hindered side of the double bond in a given molecule and the subsequent cyclization will take place in the conformation which minimizes the non-bonded repulsions. 

The Ireland variant of the Claisen rearrangement relies on the generation of the vinyl moiety of the double unsaturated system by enolization of an ester. The principle of this technique is given in Scheme 11.42 and it allows the transformation of allylic alcohol 177 into 180 via ester 178 and the ketene acetal 179. Application of this chemistry to the construction of the chiral quaternary carbon atom of the zaragozic acid core is shown in Scheme 11.47 [142]. Additional examples of this rearrangement are found in Section 11.5.2.2. 

To elucidate the mechanism of homogeneous hydrogenation catalyzed by Fe(CO)s, kinetic studies were carried out with mixtures of unsaturated fatty esters containing a radioactive label. A C-labeled methyl octadecadienoate-Fe(CO)3 complex was prepared to serve as a catalytic intermediate. Hydrogenation of methyl oleate (m-9-octa-decenoate) and palmitoleate (cis-9-hexadecenoate) and of their mixtures with methyl linoleate was also studied to determine the selectivity of this system, the function of the diene-Fe(CO)3 complex, and the mechanism of homogeneous isomerization. Mixtures of reaction intermediates with a label helped achieve unique simulation of the kinetic data with an analog computer. 

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