Diastereoselective reactions synthesis

Asymmetric synthesis is a method for direct synthesis of optically active amino acids and finding efficient catalysts is a great target for researchers. Many exceUent reviews have been pubHshed (72). Asymmetric syntheses are classified as either enantioselective or diastereoselective reactions. Asymmetric hydrogenation has been appHed for practical manufacturing of l-DOPA and t-phenylalanine, but conventional methods have not been exceeded because of the short life of catalysts. An example of an enantio selective reaction, asymmetric hydrogenation of a-acetamidoacryHc acid derivatives, eg, Z-2-acetamidocinnamic acid [55065-02-6] (6), is shown below and in Table 4 (73). 

The remarkable stereospecificity of TBHP-transition metal epoxidations of allylic alcohols has been exploited by Sharpless group for the synthesis of chiral oxiranes from prochiral allylic alcohols (Scheme 76) (81JA464) and for diastereoselective oxirane synthesis from chiral allylic alcohols (Scheme 77) (81JA6237). It has been suggested that this latter reaction may enable the preparation of chiral compounds of complete enantiomeric purity cf. Scheme 78) ... 

Entry 2 involves the use of a sterically biased enol boronate with an a-substituted aldehyde. The reaction, which gives 40 1 facial selectivity, was used in the synthesis of 6-deoxyerythronolide B and was one of the early demonstrations of the power of double diastereoselection in synthesis. In Entry 3, the syn selectivity is the result of a chelated TS, in which the (3-p-methoxybenzyl substituent interacts with the tin ion.120... 

Ziegler and Saprong described a stoichiometric cyclization onto an alkyne for the synthesis of the carbocyclic core of entecavir from diacetone glucose. Inverse addition was required to minimize deoxygenation. The highly diastereoselective reaction is tolerant to silylethers [101]. 

The synthesis of optically active compounds by the diastereoselective reaction of allyltitanium reagents with chiral electrophiles has also been reported. The reaction of allyltitanium reagents with chiral imines proceeds with excellent diastereoselectivity, as shown in Eq. 9.28, thus providing a new method for synthesizing optically active homoallylic amines with or without a P-substituent [51,52],... 

Indolizidine alkaloids. The key step in a new stereocontrolled synthesis of these alkaloids, such as castanospermine (5), depends upon the diastereoselective reaction of an azagluco aldehyde with allylmetal reagents catalyzed by Lewis acids (12, 21-22). Thus reaction of allyltrimethylsilane with the aldehyde 1 and TiCL, (excess) in CH2C12 at - 85° results in the product 2, formed by selective chelation of the ot-amino aldehydo group with TiCl4. The product can be converted into 5... 

Mary of the molecules with biological activity contain more than two asymmetric centers and the synthesis of these occurs via a diastereoselective reaction. 

The first diastereoselective total synthesis of ( )-guanacastepene A (rac-187) was published in a series of papers by Danishefsky and co-workers [107-110]. The tricyclic carbon framework was assembled by interplay of enolate alkylations and ring-closing carbon/carbon double bond forming reactions (Fig. 19). Commercially available cyclopentenone 90 was utilized as the A-ring precursor. 

Diastereoselective reactions of azomethine ylides with chiral vinyl sulfoxides have also been conducted (Scheme 12.35) (162-164). The 1,3-dipolar cycloaddition of (R)s-p-tolyl vinyl sulfoxide (106) with l-methyl-3-oxidopyridinum (105) gave three of the four possible diastereomers, and one of these isomers 107 was used for the enantioselective synthesis of the (75)-(—)-2a-tropanol 108 (162). 

Chiral exocyclic alkenes such as 112, also having the chiral center two bonds away from the reacting alkene moiety, have been used in highly diastereoselective reactions with azomethine ylides, and have been used as the key reaction for the asymmetric synthesis of (5)-(—)-cucurbitine (Scheme 12.37) (169). The aryl sulfone 113 was used in a 1,3-dipolar cycloaddition reaction with acyclic nitrones. In 113, the chiral center is located four bonds apart from alkene, and as a result, only moderate diastereoselectivities of 36-56% de were obtained in these reactions (170). 

Scheme 3.1.1 Enantio- and diastereoselective enzymatic synthesis of l-phenylpropane-1, 2-diol stereoisomers in a reaction sequence. recLbADH, recombinant ADH from Lactobacillus brevis Th.sp.-ADH, ADH from Thermoanaerobium species. After crystallization ee > 99%.

A number of techniques are now available allowing the preparation of enantiomerically pure (or at least enriched) compounds via asymmetric nucleophilic addition to electron-deficient alkenes. Some of these transformations have already been successfully applied in total synthesis. In most cases, the methods are based on diastereoselective reactions, employing chirally modified substrates or nucleophiles. There are only very few useful enantioselective procedures accessible so far. The search for efficient en-antioselective methods, especially for those which are catalytic and do not require the use of stoichiometric amounts of chiral auxiliaries, remains a challenging task for the future. 

Synthesis of A—protected (R)-3-alkylisoindolin-l-ones via diastereoselective reduc- (g) tive alkylation with Grignard reagent and triethylsilane has been reported. The emphasis is on the stereochemical outcome of the key diastereoselective reactions.318... 

A stereospecific and stereoselective synthesis of 2-(l-hydroxyalkyl)-l-alkylcyclo-propanols (46) has been realized from a,/3-epoxy ketones and bis(iodozincio)methane (Scheme 22).127 The diastereoselective reaction has been explained by chelation (g) effects. 

Hydroboration of alkenes1 (15, 91). The Rh(I)-catalyzed hydroboration provides a highly diastereoselective reaction in a synthesis of a poly ether antibiotic. Thus the derivative (1) of an acyclic allylic alcohol is converted to the primary alcohol 2 by hydroboration with catecholborane (CB) catalyzed by ClRh[P(C6H5)3]3 with 94 6 selectivity. Note that hydroboration of 1 with disiamylborane (12, 484) proceeds with the opposite selectivity at Cio (8 92). 

Application of the halogenation of y-aminoolefins preceding intramolecular cyclization has been applied to the synthesis of fused piperidines (Equation 33) <2003CC1918>. The presence of chiral substituents (e.g., via the nitrogen protecting group) generates a diastereoselective reaction (Equation 34). 

For the preparation of enantiopure amines, diastereoselective synthesis using a chiral auxiliary can be a viable approach. In this concept, in the first step a chiral intermediate is formed by reaction of a prochiral substrate with the chirality transfer agent. The key second step is a diastereoselective reaction. This is followed by cleavage of the chiral auxiliary to give the product amine. This concept is illustrated in Figure 25.1. 

M. T. Reetz, Synthesis and Diastereoselective Reactions of N,N-Dibenzylamino Aldehydes and Related Compounds, Chem. Rev. 1999, 99, 1121—1162. 

For targets with more than one stereogenic centre, only one need be borrowed from the chiral pool, provided diastereoselective reactions can be used to introduce the others with control over relative stereochemistry. Because the first chiral centre has defined absolute configuration, any diastereoselective reaction that controls the relative stereochemistry of a new chiral centre also defines its absolute configuration. In this synthesis of the rare amino sugar methyl mycaminoside, only one chiral centre comes directly from the chiral.pool—the rest are introduced diastereoselectively. 

Since 1987 our group has been concerned with the design, synthesis, development, and more recently the application of dithiane 1-oxide derivatives as asymmetric building blocks for organic synthesis. This review focuses on the development of highly diastereoselective reactions, principally carried out at the acyl side chain of 2-acyl dithiane 1-oxide derivatives (1). 

In conjunction with work in natural products synthesis, the controlled installation of stereocenters alpha to indole C2 remains of significant interest. In their approach to Clausena alkaloids, e.g., (-)-(5R, 6S)-balasubramide, Wang and co-workers employed an intramolecular 8-CMc/o-epoxide-arene cyclization for installation of a C2-C3 8-membered lactam moiety with excellent enantioselectivity <07OL1387>. The Chen group has reported a diastereoselective reaction between 2-lithioindoles and chiral A -terf-but ane sulfinyl... 

Weymann, M, Pfrengle, W, Schollmeyer, D, Kunz, H, Enantioselective syntheses of 2-alkyl, 2,6-dialkylpiperidines and indolizidine alkaloids through diastereoselective Mannich-Michael reactions, Synthesis, 1151-1160, 1997. 

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