Intramolecular malonic ester synthesis

An intramolecular malonic ester synthesis can be used to form rings having three to six atoms, provided the appropriate dihalide is used as starting material. For example, cyclopentanecarbox-ylic acid can be prepared from diethyl malonate and 1,4-dibromobutane (BrCH2CH2CH2CH2Br) by the following sequence of reactions ... 

The malonic ester synthesis can also be used to prepare cyc/oalkane-carboxylic acids. For example, when 1,4-dibromobutane is treated with diethyl malonate in the presence of 2 equivalents of sodium ethoxide base, the second alkylation step occurs intramolecularly to yield a cyclic product. Hydrolysis and decarboxylation then give [Pg.919]

Aldehyde, Ketone, and Ester Enolates 867 Enolate Regiochemistry 872 The Aldol Condensation 873 Mixed Aldol Condensations 878 Chalcones From the Mulberry Tree to Cancer Chemotherapy 880 The Claisen Condensation 882 Intramolecular Claisen Condensation The Dieckmann Cyclization 884 Mixed Claisen Condensations 885 Acylation of Ketones with Esters 886 Alkylation of Enolates 887 The Acetoacetic Ester Synthesis 889 The Malonic Ester Synthesis 891 Alkylation of Chiral Enolates 893 Enolization and Enol Content 895 a Halogenation of Aldehydes and Ketones 900... 

This and other information show that nine Cg units from malonyl-coenzyme A and one C3 unit from propionyl-coenzyme A condense to form the linear polyketide intermediate shown below. These units are joined by acylation reactions that are the biosynthetic equivalent of the malonic ester synthesis we studied in Section 18.7. These reactions are also similar to the acylation steps we saw in fatty acid biosynthesis (Special Topic E in WileyPLUS). Once formed, the linear polyketide cyclizes by enzymatic reactions akin to intramolecular aldol additions and dehydrations (Section 19.6). These steps form the tetracyclic core of akiavinone. Phenolic hydroxyl groups in akiavinone arise by enolization of ketone carbonyl groups present after the aldol condensation steps. Several other transformations ultimately lead to daunomycin ... 

When a malonic ester synthesis is performed using excess base and 1,4-dibromobutane as the alkyl halide, an intramolecular reaction occurs, and the product contains a ring. Draw... 

In Problem 22.38, we saw an intramolecular example of a malonic ester synthesis using excess base and 1,4-dibromobutane. If this dibromide is used in an acetoacetic ester synthesis, an intramolecular process can also occur. Predict the product of that reaction. 

High-dilution conditions for the intramolecular application of the malonic ester synthesis to the preparation of macrocyclic diesters have been reported yields between 9 and 50% are obtained. Dialklacyl phosphonates provide a new method for the acetylation of enolates including the sodium enolate of diethyl malonate. An alternative method for the generation of diester enolates involves the reductive a-deacetoxylation of an a-acetoxy diester (Scheme 30). The... 

This example illustrates the synthesis of cyclic compounds by intramolecular alkylation reactions. The relative rates of cyclization for ca-haloalkyl malonate esters are 650,000 1 6500 5 for formation of three-, four-, five-, and six-membered rings, respectively.28 (See Section 3.9 of Part A to review the effect of ring size on Sn2 reactions.)... 

Less basic malonic ester anions may be employed for the twofold alkylation of dibromides. Cyclic 1,1-dicarboxylic esters are formed, if the reaction is executed in an appropriate manner. In the synthesis of cyclobutane diester A the undesired open-chain tetraester B was always a side product (J.A. Cason, 1949), the malonic ester and its monoalkylation product were always only partially ionized. Alkylation was therefore slow and intermolecular reactions of mono-alkyl intermediates with excess malonic ester prevailed. If the malonic ester was dissolved in ethanol containing sodium ethoxide, and 1,3-dibromopropane as well as more sodium ethoxide were added slowly to the solution, 63% of A and only 7% of B were isolated. The latter operations kept the malonic ester and its monoalkylated product in the ionic form, and the dibromide concentration low, so that the intramolecular reaction was favored against intermolecular reactions. The continuous addition of base during the reaction kept the ethoxide concentration low, which helped to prevent decomposition of the bromide by this nucleophile. 

We have been particularly enamored with the development of experiments involving carbon-carbon bond formation, especially as part of tandem reactions occurring in a single container (see the Diels-Alder reaction. Figure 1). One such reaction is the synthesis of simple esters of coumarin-3-carboxylic acids via a Knoevenagel condensation between malonic esters and various a-hydroxybenzaldehydes, followed by intramolecular nucleophilic acyl substitution. This conversion, catalyzed by piperidine, has been carried out under a variety of conditions, for example, at room temperature without solvent... 

Chiral malonate esters have been used successfully in asymmetric cyclopropanations, as shown by the example in Scheme 6.39, part of a total synthesis of steroids such as estrone [143,144]. The key step in this sequence is an intramolecular Sn2 alkylation of the monosubstituted malonate. The rationale for the diastereoselec-tivity is shown in the illustrated transition structure. Note that the enolate has C2 symmetry, so it doesn t matter which face of the enolate is considered. The illustrated conformation has the ester residues syn to the enolate oxygens to relieve Al>3 strain, with the enolate oxygens and the carbinol methines eclipsed. The allyl halide moiety is oriented away from the dimethylphenyl substituent, exposing the alkene Re face to the enolate. The crude selectivity is about 90% as determined by conversion to the dimethyl ester and comparison of optical rotations [143], but a single diastereomer may be isolated in 67% yield by preparative HPLC [144], This reaction deserves special note because it was conducted on a reasonably large scale ... 

Recently, the Biju group demonstrated a highly enantioselective NHC-eatalyzed synthesis of functionalized cyclopentenes via o,p-unsaturated acyl azolium intermediates. This organo cascade reaetion of modified enals with malonic ester derivatives having a y-benzoyl group involves the Michael/ intramolecular aldol/p-lactonization/decarboxylation sequence to deliver functionalized cyclopentenes in good yields and excellent ee values (up to 85% yield and >99% ee) (Scheme 7.105). 

---