Homologation asymmetric

The reaction of diacetylene and its asymmetric homologs (penta-l,3-diyne, hexa-1,3-diyne) with semicarbazide (72ZOR2605) affords the amides of 3-methyl-pyrazole- 1-carboxylic acid (27) (80°C, EtONa, EtOH, 40 h). Amide 26 undergoes irreversible rearrangement to amide 27 at 80°C (EtONa, EtOH). 

The essential features of the Masamune-Sharpless hexose synthesis strategy are outlined in a general way in Scheme 4. The strategy is based on the reiterative- application of a two-carbon extension cycle. One cycle comprises the following four key transformations (I) homologation of an aldehyde to an allylic alcohol (II) Sharpless asymmetric epoxidation of the allylic alcohol ... 

The chiral center would be installed from either Unear carbamate 15 or branched carbamate 16 via the asymmetric addition of malonate anion to the 7i-allyl Mo complex reported by Trost et al. [11] to afford the branched chiral malonate derivative 17. Decarboxylation of 17 should provide the mono-carboxylic acid 18. Masa-mune homologation with 18 affords our common precursor 14. Linear carbamate 15 was obtained from the corresponding cinnamic acid, and branched 16 was prepared in one pot from the corresponding aldehyde. 

Asymmetric tandem cycloaddition of a chiral carbohydrate nitroalkene with ethyl vinyl ether in the presence of electron-withdrawing alkenes produces a facile assembly of bicyclic systems, which can further be selectively cleaved to give homologated carbohydrates (Eq. 8.110).176... 

Dauben et al. (15) applied the Aratani catalyst to intramolecular cyclopropanation reactions. Diazoketoesters were poor substrates for this catalyst, conferring little asymmetric induction to the product, Eq. 10. Better results were found using diazo ketones (34). The product cyclopropane was formed in selectivities as high as 77% ee (35a, n = 1). A reversal in the absolute sense of induction was noted upon cyclopropanation of the homologous substrate 34b (n = 2) using this catalyst, Eq. 11. Dauben notes that the reaction does not proceed at low temperature, as expected for a Cu(II) precatalyst, but that thermal activation of the catalyst results in lower selectivities (44% ee, 80°C, PhH, 35a, n = 1). Complex ent-11 may be activated at ambient temperature by reduction with 0.25 equiv (to catalyst) DIBAL-H, affording the optimized selectivities in this reaction. The active species in these reactions is presumably the aluminum alkoxide (33). Dauben cautions that this catalyst slowly decomposes under these conditions. 

H. S., and McKay, D. B. Structure and reactivity of an asymmetric complex between HslV and I-domain deleted HslU, a prokaryotic homolog of the eukaryotic proteasome. /. Mol. Biol. 2003, 330, 185-195. 

As chiral cyanohydrins are important synthetic intermediates for the preparation of chiral amino acids, carbohydrates, and so on, this process would be a useful asymmetric one—carbon homologation procedure widely employable for organic synthesis. 

SCHEME 72. Iterative one-pot homologation of reduced polypropionates viaZACA-Pd-catalyzed vinylation and its application to highly efficient catalytic and asymmetric synthesis of key intermediates of ionomycin and borrelidin... 

Asymmetric reactions of homologated organozincs with aldehydes... 

Asymmetric reactions of homologated organozlncs with aldehydes and imines... 

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