Additions enantioselective

Chiral Titanium Complexes. Chiral titanium complexes are useful for the enantioselective addition of nucleophiles to carbonyl groups ... 

Enantioselective addition of hydrogen cyanide to hydroxypivaldehyde (25), catalyzed by (lf)-oxynittilase, afforded (R)-cyanohydrin (26) in good optical yield. Acid-catalyzed hydrolysis followed by cyclization resulted in (R)-pantolactone in 98% ee and 95% yield after one recrystallization (56). 

Catalytic enantioselective addition to imines, in particular, aza-Diels-Alder reaction 99CRV1069. 

Design of chiral catalysis and asymmetric autocatalysis for diphenyl-(l-methyl-pyrrolidin-2-yl) methanol-catalyzed enantioselective additions of organozinc reagents 97YGK994. 

Jacobsen subsequently reported a practical and efficient method for promoting the highly enantioselective addition of TMSN3 to meso-epoxides (Scheme 7.3) [4]. The chiral (salen)Cl-Cl catalyst 2 is available commercially and is bench-stable. Other practical advantages of the system include the mild reaction conditions, tolerance of some Lewis basic functional groups, catalyst recyclability (up to 10 times at 1 mol% with no loss in activity or enantioselectivity), and amenability to use under solvent-free conditions. Song later demonstrated that the reaction could be performed in room temperature ionic liquids, such as l-butyl-3-methylimidazo-lium salts. Extraction of the product mixture with hexane allowed catalyst recycling and product isolation without recourse to distillation (Scheme 7.4) [5]. 

Despite these significant results in azide additions, only limited success has been obtained in enantioselective addition of other sp2-hybridized nitrogen-centered nucleophiles to meso-epoxides. Bartoli et al. demonstrated that aniline was a... 

Subsequent to the development of the (salen)Cr-catalyzed desymmetrization of meso-epoxides with azide (Scheme 7.3), Jacobsen discovered that the analogous (salen)Co(n) complex 6 promoted the enantioselective addition of benzoic acids to meso-epoxides to afford valuable monoprotected C2-symmetric diols (Scheme 7.15) [26], Under the reaction conditions, complex 6 served as a precatalyst for the (salen) Co(iii)-OBz complex, which was fonned in situ by aerobic oxidation. While the enantioselectivity was moderate for certain substrates, the high crystallinity of the products allowed access to enantiopure materials by simple recrystallization. 

The first example of asymmetric catalytic ring-opening of epoxides with sp2-hybridized carbon-centered nucleophiles was reported by Oguni, who demonstrated that phenyllithium and a chiral Schiff base ligand undergo reaction to form a stable system that can be used to catalyze the enantioselective addition of phenyllithium to meso-epoxides (Scheme 7.24) [48]. Oguni proposed that phenyllithium... 

The first reports on enantioselective addition reactions of achiral organometallic reagents, modified by aprotic chiral additives, described the addition of Grignard reagents to prostereogenic carbonyl compounds in the presence of ( + )-(/ ,/J)-2,3-dimethoxybutane (l)4 5, (-)-tetrahydro-2-methylfuran (2)6, (-)-l-[(tetrahydro-2-furanyl)methyl]pyrrolidine (3)7 or (-)-sparteine (4)8. The enantioselectivity, however, was poor (0-22% ee). 

The first reported chiral catalysts allowing the enantioselective addition of diethylzinc to aryl aldehydes in up to 60% cc were the palladium and cobalt complexes of 1,7,7-trimethylbicy-clo[2.2.1. ]heptane-2,3-dione dioxime (A,B)3. A number of other, even more effective catalysts, based on the camphor structure (C K, Table 26) have been developed. 

The tridentate ligands C, L and M are effective catalysts for the enantioselective addition of dialkylzincs to aromatic aldehydes16,17. In particular, ligands L and M qualify as members of the chemical enzyme (chemzyme) class of synthetic reagents17, since they function in a predictable, clear-cut mechanistic way. As demonstrated by X-ray diffraction, the actual catalyst is a monomeric zinc chelate 2 formed in toluene at 50 C by reaction of L or M with one equivalent of diethylzinc. 

Although it is known that in some cases the lithium salts of chiral amino alcohols are even better catalysts than the chiral ligands themselves, the use of metals other than lithium has rarely been investigated. The oxazaborolidines A and B and the aluminum analog C have been used as catalysts for the enantioselective addition of diethylzinc to benzaldehyde35 (Table 32). 

Reagent-controlled enantioselective addition to achiral carbonyl compounds ... 

The predominant formation of ann -carboxylic esters and thioesters results when the additives 13 or 14 are used to mediate aldol additions of silylketene acetals derived from propionates and propanethioates37. The enantioselective addition of a-unsubstituted esters or thioesters is also feasible with the borane 1437. 

Recently, the enantioselective addition of hydrocyanic acid to aldehydes, analogous to the synthesis of (/ )-cyanohydrins, yielding (.S)-cyanohydrins in very high optical purity, with (S )-oxynitrilase as catalyst, was reported20,21. 

The enantioselective addition of organometallic reagents to, V-(trimethylsilyl)benzaldehyde imine (1) in the presence of enantiomerically pure modifiers has been investigated. The best result is obtained with butyllithium (the corresponding Grignard reagent affords both lower yield and selectivity, 1 fails to react with diethylzinc) and two equivalents of the enantiomerically pure diol 2 in diethyl ether. It should be noted that the choice of the solvent is crucial for the stereoselectivity of the reaction1 2 3 5 7 8 9. 

When either or both of the reaction components has a chiral substituent, the reaction can be enantioselective (only one of the four diastereomers formed predominantly), and this has been accomplished a number of times. Enantioselective addition has also been achieved by the use of a chiral catalyst and by using optically active enamines instead of enolates. Chiral imines have also been used. ... 

A polymer-supported version of our optimal ligand was also developed [52]. Its preparation involves attachment of aziridine carbinols to polymer-bound triphenylchloromethane (Scheme 40). This polymer-bound ligand 53 was almost equally effective in the enantioselective addition of diethylzinc to aromatic and aliphatic aldehydes with ee s ranging from 77-97% for the latter type of substrate [52]. It is of practical interest that this polymer-supported ligand could be reused without losing much of its efficiency. 

Organolithium Reagents/Sparteine Combinations as Chiral Nucleophiles for Enantioselective Additions... 

It is noteworthy that, as early as 1929, Shibata and Tsuchida reported a kinetic resolution of rac-3,4-dihydroxyphenylalanine by selective oxidation of one enantiomer using a chiral cobalt complex [Co(en)3NH3Cl]Br2 as a catalyst [46,47]. Figure 12 shows a highly enantioselective addition of diisopropy-Izinc to 2-(ferf-butylethynyl)pyrimidine-5-carbaldehyde via an autocatalytic process in the presence of a chiral octahedral cobalt complex with ethylenedi-... 

Goldfuss B (2003) Enantioselective Addition of Organolithiums to C=0 Groups and Ethers. 5 12-36... 

Hodous BL, Fu GC (2002) Enantioselective addition of amines to ketenes catalyzed by a planar-chiral derivative of PPY possible intervention of chiral Bronsted-acid catalysis. J Am Chem Soc 124 10006-10007... 

Kragl and Dreisbach (1996) have carried out the enantioselective addition of diethyl zinc to benzaldehyde in a continuous asymmetric membrane reactor using a homogeneous soluble catalyst, described in their paper. Here a,a-diphenyl-L-proline was used as a chiral ligand, coupled to a copolymer made from 2-hydroxy ethyl methacrylate and octadecyl methacrylate, which had a sufficiently high molecular weight to allow separation by ultra-filtration (U/F). The solvent-stable polyaramide U/F Hoechst Nadir UF PA20 retained more than 99.8% of the catalyst. The ee was 80 %, compared to 98 % for a noncoupled catalyst. 

Enantioselective addition of P-H bonds in dialkyl phosphites to aldehydes and imines has been studied in detail. These reactions typically use early metal or Ian-... 

The discussion of the activation of bonds containing a group 15 element is continued in chapter five. D.K. Wicht and D.S. Glueck discuss the addition of phosphines, R2P-H, phosphites, (R0)2P(=0)H, and phosphine oxides R2P(=0)H to unsaturated substrates. Although the addition of P-H bonds can be sometimes achieved directly, the transition metal-catalyzed reaction is usually faster and may proceed with a different stereochemistry. As in hydrosilylations, palladium and platinum complexes are frequently employed as catalyst precursors for P-H additions to unsaturated hydrocarbons, but (chiral) lanthanide complexes were used with great success for the (enantioselective) addition to heteropolar double bond systems, such as aldehydes and imines whereby pharmaceutically valuable a-hydroxy or a-amino phosphonates were obtained efficiently. 

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