Asymmetric addition, nucleophilic

Mejorado investigated the asymmetric addition of various organometallic nucleophiles using method A, but the reaction could not be catalyzed. The intermediates proved to be far too reactive. However, he established that the addition of a stoichiometric amount of a preformed chiral complex [an admixture of Taddol (r/om-a, -(dimethyl-1,3-dioxolane-4,5-diyl)bis(diphenyl methanol)) and EtMgBr] to 5 affords some enantiomeric excess in the resulting phenol product 6 (Fig. 4.12).13... 

There are many reports on the asymmetric addition of nucleophiles to carbon-nitrogen double bonds [6]. However, the majority of these reports are based on substrate control and rely on chiral auxiliaries in imines. Moreover, almost all of these reports are just for aldo-imine cases [7]. 

Taking Tomioka s pioneering work [8] as a precedent, we have screened 13-amino alcohols as chiral modifiers [9] in the nucleophilic addition of lithium 2-pyridinylacetylide 6 to the pMB protected ketimine 5. We were pleased to discover that when 5 was treated with a mixture prepared from 1.07 equiv each of quinine and 2-ethynylpyridine by addition of 2.13 equiv of n-BuLi in THF at -40 to -20 °C, the desired adduct 19 was obtained in 84% yield with maximum 64% ee. Soon after, we found selection of the nitrogen protective group had great influence on the outcome of the asymmetric addition and the ANM (9-anthranylmethyl)... 

It would be ideal if the asymmetric addition could be done without a protecting group for ketone 36 and if the required amount of acetylene 37 would be closer to 1 equiv. Uthium acetylide is too basic for using the non-protected ketone 36, we need to reduce the nucleophile s basicity to accommodate the acidity of aniline protons in 36. At the same time, we started to understand the mechanism of lithium acetylide addition. As we will discuss in detail later, formation of the cubic dimer of the 1 1 complex of lithium cyclopropylacetylide and lithium alkoxide of the chiral modifier3 was the reason for the high enantiomeric excess. However, due to the nature of the stable and rigid dimeric complex, 2 equiv of lithium acetylide and 2 equiv of the lithium salt of chiral modifier were required for the high enantiomeric excess. Therefore, our requirements for a suitable metal were to provide (i) suitable nucleophilicity (ii) weaker basicity, which would be... 

Tanaka et al.28 have synthesised a series of (S)-chiral Schiff bases as the highly active (yield 69-99%) and enatioselective (ee 50-96%) catalysts in the reaction of addition of dialkylzinc to aldehydes. The stereochemistry of the asymmetric addition was suggested. In a transition state when S-chiral Schiff base was used as chiral source, the alkyl nucleophile attacked Re face of the activated aldehyde and formed the R-configuration alkylated product [13]. 

The asymmetric addition of different types of nucleophiles at the C-l position of 3,4-dihydroisoquinolines were highlighted in a number of publications. Schreiber et al. described an enantioselective addition of terminal alkynes 136 to 3,4-dihydroisoquinolinium bromide 137 in the presence of triethylamine, catalytic copper bromide, and QUINAP <06OL143>. The resulting 1-substituted tetrahydroquinolines 138 were isolated in high yield and high enantiomeric excess in most cases. 

Vinylsilane to copper transmetallation has entered the literature,93 93a,93b and a system suitable for catalytic asymmetric addition of vinylsilanes to aldehydes was developed (Scheme 24).94 A copper(l) fluoride or alkoxide is necessary to initiate transmetallation, and the work employs a copper(ll) fluoride salt as a pre-catalyst, presumably reduced in situ by excess phosphine ligand. The use of a bis-phosphine was found crucial for reactivity of the vinylcopper species, which ordinarily would not be regarded as good nucleophiles for addition to aldehydes. The highly tailored 5,5 -bis(di(3,5-di-tert-butyl-4-methoxyphenyl)phosphino-4,4 -bis(benzodioxolyl) (DTBM-SEGPHOS) (see Scheme 24) was found to provide the best results, and the use of alkoxysilanes is required. Functional group tolerance has not been adequately addressed, but the method does appear encouraging as a way to activate vinylsilanes for use as nucleophiles. 

Asymmetric addition of small-molecule nucleophiles to carbonyl groups and their derivatives are catalyzed by either Lewis acids or Lewis bases. Carbon dioxide is now a promising building block for as5mimetric organic synthesis. 

In the presence of thiourea catalyst 122, the authors converted various (hetero) aromatic and aliphatic trons-P-nitroalkenes with dimethyl malonate to the desired (S)-configured Michael adducts 1-8. The reaction occurred at low 122-loading (2-5 mol%) in toluene at -20 to 20 °C and furnished very good yields (88-95%) and ee values (75-99%) for the respective products (Scheme 6.120). The dependency of the catalytic efficiency and selectivity on both the presence of the (thio) urea functionality and the relative stereochemistry at the key stereogenic centers C8/C9 suggested bifunctional catalysis, that is, a quinuclidine-moiety-assisted generation of the deprotonated malonate nucleophile and its asymmetric addition to the (thio)urea-bound nitroalkene Michael acceptor [279]. 

Asymmetric addition of functionalized allylic nucleophiles is also a useful process. Yoshito Kishi of Harvard University has shown (J. Am Chem. Soc. 2004,126. 12248) that 2,3-dibromopropene 4 will add with high enantioselectivity to linear and branched aliphatic aldehydes. The analogous Cl and I derivatives can also be prepared, using the same approach. 

Since early investigations about the asymmetric addition of diethyl sodiomalonate to optically active vinylic sulfoxides,100-101 Posner and his coworkers102-117 have developed a highly useful methodology based on the conjugate addition of carbon nucleophiles to homochiral a-arylsulfinyl-a,(J-unsaturated carbonyl compounds. While acyclic derivatives still lead only to moderate results,103 the strength of this method is for cyclic systems. For example, the 2-sulfinyl-2-cycloalkenones (94) and (95), the 2-sulfinyl-2-alkenolides (96) and (97), as well as their respective enantiomers are excellent substrates. All these compounds are quite readily accessible in enantiomeric purities of >98% and are configurationally stable, at least for several months at 0 C. 

The nucleophilic addition of organometallic reagents to imines provides an attractive route to amines [4]. Recendy, however, some completely different approaches to the synthesis of a-aryl amine were reported. Hayashi and Ishigeda-ni found a new catalytic system for the asymmetric addition of arylstannanes to imines derived from aromatic aldehydes (Scheme 11) [20]. 

Recent developments in the asymmetric addition of aldehydes have been reviewed,206 as have asymmetric catalysis using metal complexes207 and nucleophile isotope effects 208... 

An important issue is the right choice of substrate 1 which functions as an anion precursor. Successful organocatalytic conversions have been reported with indanones and benzophenone imines of glycine derivatives. The latter compounds are, in particular, useful for the synthesis of optically active a-amino acids. Excellent enantioselectivity has been reported for these conversions. In the following text the main achievements in this field of asymmetric organocatalytic nucleophilic substitutions are summarized [1, 2], The related addition of the anions 2 to Michael-acceptors is covered by chapter 4. 

The alkaloid-catalyzed addition of alcohols to prochiral ketenes is one of the very first examples of catalytic asymmetric synthesis. In pioneering work by Pracejus in the 1960s quite remarkable 76% ee was achieved and it was not until 1999 that substantial improvement of enantioselectivity in catalytic asymmetric addition of O- and N-nucleophiles to prochiral ketenes was reported. In particular, the chiral... 

Since Kagan s first report of N-N bond reduction using Sml2,39 the reagent is now routinely used for the transformation. The reaction has been used widely in asymmetric synthesis to reduce the products of asymmetric additions to, or reductions of,47 hydrazone derivatives. For example, Enders reported the nucleophilic addition of alkyllithiums to trifluoroacetaldehyde SAMP and RAMP hydrazones in an asymmetric approach to a-trifluoromethyl-sub-stituted amines.48 After activation of the adducts by benzoylation, Sml2-mediated N-N bond cleavage proceeded in high yield (Scheme 4.41). 

These mixed structures have been employed in asymmetric nucleophilic addition reactions. The asymmetric addition of acetonitrile anion to benzaldehyde gives access to synthetically important chiral hydroxy nitriles. 

In connection with the total synthesis of grandisol, an asymmetric addition of ethylene on chiral heterocyclic aminals and ketals was examined (Scheme 23). The selectivity can be high, with a preferred approach of ethylene from the less hindered side, especially when chiral pyrrolidone 97 or furanones 100 were used in place of cyclic enones [70]. The diastereoisomeric excess of 101 or 102 remains modest with 5-menthyloxy furanone, even if the dark addition of nucleophiles or radicals on 100 occurs with a total facial selectivity. From a detailed analysis of the dependence of the product ratio with temperature and substituents, it was proposed that a pyramidalization of the (3-carbon in the relaxed of the... 

Chiral Auxiliary for Asymmetric Induction. Numerous derivatives of (—)-8-phenylmenthol have been utilized for asymmetric induction studies. These include inter- and intramolecular Diels-Alder reactions, dihydroxylations, and intramolecular ene reactions of a,p-unsaturated 8-phenylmenthol esters. These reactions usually proceed in moderate to good yield with high diastereofacial selectivity. a-Keto esters of 8-phenylmenthol (see 8-Phenylmenthyl Pyruvate) have been used for asymmetric addition to the keto group, as well as for asymmetric [2 -F 2] photoadditions and nucleophilic alkylation. Ene reactions of a-imino esters of 8-phenylmenthol with alkenes provide a direct route to a-amino acids of high optical purity. Vinyl and butadienyl ethers of 8-phenylmenthol have been prepared and the diastereofacial selectivity of nitrone and Diels-Alder cycloadditions, respectively, have been evaluated. a-Anions of 8-phenylmenthol esters also show significant diastereofacial selectivity in aldol condensations and enantiose-lective alkene formation by reaction of achiral ketones with 8-phenylmenthyl phosphonoacetate gives de up to 90%. ... 

Besides the transition-metal-catalyzed asymmetric addition reactions to prochiral olefins, the substitution reaction of a carbon nucleophile to allylic esters has been investigated using a variety of chiral transition-metal catalysts. Using the aforementioned sugar diphosphites... 

---