Chiral auxiliaries diastereoselective reductive

Scheme 45 Substrate- and auxiliary-induced diastereoselective reduction of chiral 1,2-diimines...

Substituted 3-hydroxy-2-pyrrolidinones were synthesised via 1,3-DC reactions of furfuryl nitrones with acrylates and subsequent intramolecular cyclisation after N-0 bond reduction. Addition of iV-acryloyl-(2/()-bomane-10,2-sultam to Z-nitrone 83 gave the endo/exo cycloadducts in 85 15 ratio with complete stereoface discrimination <00JOC1590>. The 1,3-DC of pyrroline A-oxide to chiral pentenoates using (-)-/rans-2-phenylcyclohexanol and (-)-8-phenylmenthol as chiral auxiliaries occurred with moderate stereocontrol (39% de and 57% de, respectively) and opposite sense of diastereoselectivity <00EJO3595>. The... 

The chiral auxiliaries anchored to the substrate, which is subjected to diastereoselective catalysis, is another factor that can control these reactions. These chiral auxiliaries should be easily removed after reduction without damaging the hydrogenated substrate. A representative example in this sense is given by Gallezot and coworkers [268], They used (-)mentoxyacetic acid and various (S)-proline derivates as chiral auxiliaries for the reduction of o-cresol and o-toluic acid on Rh/C. A successful use of proline derivates in asymmetric catalysis has also been reported by Harada and coworkers [269,270], The nature of the solvent only has a slight influence on the d.e. [271],... 

Access to the corresponding enantiopure hydroxy esters 133 and 134 of smaller fragments 2 with R =Me employed a highly stereoselective (ds>95%) Evans aldol reaction of allenic aldehydes 113 and rac-114 with boron enolate 124 followed by silylation to arrive at the y-trimethylsilyloxy allene substrates 125 and 126, respectively, for the crucial oxymercuration/methoxycarbonylation process (Scheme 19). Again, this operation provided the desired tetrahydrofurans 127 and 128 with excellent diastereoselectivity (dr=95 5). Chemoselective hydrolytic cleavage of the chiral auxiliary, chemoselective carboxylic acid reduction, and subsequent diastereoselective chelation-controlled enoate reduction (133 dr of crude product=80 20, 134 dr of crude product=84 16) eventually provided the pure stereoisomers 133 and 134 after preparative HPLC. 

On the contrary, application of Oppolzer s chiral sultam 100 in Method 1 led to good diastereoselectivity (d.e. 60-70% after chromatography), and pure (4R)-diastereomers have been isolated by recrystallization. Moreover, the chiral auxiliary was cleaved successfully by reduction with LiAlH4.2-Aminopyran-5-carbinols 101 were produced without... 

The utilization of a-amino acids and their derived 6-araino alcohols in asymmetric synthesis has been extensive. A number of procedures have been reported for the reduction of a variety of amino acid derivatives however, the direct reduction of a-am1no acids with borane has proven to be exceptionally convenient for laboratory-scale reactions. These reductions characteristically proceed in high yield with no perceptible racemization. The resulting p-amino alcohols can, in turn, be transformed into oxazolidinones, which have proven to be versatile chiral auxiliaries. Besides the highly diastereoselective aldol addition reactions, enolates of N-acyl oxazolidinones have been used in conjunction with asymmetric alkylations, halogenations, hydroxylations, acylations, and azide transfer processes, all of which proceed with excellent levels of stereoselectivity. 

The original racemic patents described the use of resolution to give a chiral oxirane, such as 25, as an intermediate or the use of a chiral auxiliary (20) to produce the salmeterol enantiomers. Alkylation of chiral amine 20 with 2-benzyloxy-5-(2-bromo-acetyl)-benzoic acid methyl ester, followed by diastereoselective reduction of the ketone with lithium borohydride furnished intermediate 21 after chromatographic separation of the diasteromers. Removal of the benzyl group and the chiral auxiliary was... 

Overall, the chiral auxiliary approach to sitagliptin using (S)-PGA to install the amino group via diastereoselective hydrogenation resulted in a reduction of three chemical steps in the overall synthesis. This new synthetic approach essenhally followed the same convergent strategy (Route A on Scheme 5.8), but represented a big improvement over our previous route. The convergent approach made sense since the triazole heterocycle was a valuable intermediate that required an elaborate preparation with a modest yield of 26%. 

The Pummerer rearrangement has also been used to transform the 4-tolylsulfinyl group, which is an effective chiral auxiliary, into other functionalities via the aldehyde. Thus, chiral /> -(ben-7yloxy)-/J-(fluoroalkyl) sulfoxides 11 have been transformed into aldehydes 12 in a two-step process.7,8 The 3,3-difluoro-substituted aldehydes 12 can be converted directly into a variety of other functional groups without isolation. The chiral center at C2 is derived from the corresponding chiral / -oxo sulfoxide, which can be reduced diastereoselectively due to the presence of the chiral 4-tolylsulfinyl group.7,8 Diastereoselective reduction of fluorine-free fi-oxo sulfoxides has been intensively studied, especially in the laboratories of Solladie.9... 

Chiral halohydrins epoxides.1 The esters (2) of the chiral alcohol 1 derived from camphor-10-sulfonic acid, are converted to a-chloro esters (3) by O-silylation and reaction with NCS with high diastereoselectivity. Reduction of 3 with Ca(BH4)2 results in the recovered auxiliary and the chlorohydrin 4 with clean retention. Cyclization of 4 to the terminal epoxide 5 proceeds with clean inversion. 

The synthesis of enantiopure amino-functionalized compounds such as a- and (3-amino acids or nonfunctionalized amines can be envisaged by the use of aldehydes, ketones, a- or (3-keto acids, or derivatives thereof as substrates for imine formation followed by, for example, diastereoselective Strecker reactions, reductions, or organometallic addition reactions. In the literature, diastereoselective syntheses based on a large variety of chiral auxiliaries, such as a-arylethylamines,4... 

The first example of a chiral-auxiliary-induced [2+2] cycloaddition between 02 and oxazolidinone-functionalized enecarbamates, which proceeds with complete diastereoselectivity as a result of steric repulsions, has been reported to afford 57 <02JACS8814>. The optically active enecarbamates bearing Evans chiral auxiliary were photooxygenated at -35 °C with 5,10,15,20-tetrakis(pentafluorophenyl)porphine (TPFPP) as sensitizer and an 800 W sodium lamp as light source. The dioxetanes 57 were obtained exclusively, but they readily decomposed at room temperature to the expected carbonyl products because of their thermally labile nature. The absolute configuration of the dioxetanes 57 was established by reduction to the corresponding diols with L-methionine. 

An alternative chiral auxiliary, the l-(triisopropylphenyl)ethyl group, was successfully used by Py for similar asymmetric reductive couplings (Scheme 5.42).72,73 It is noteworthy that these Sml2-mediated coupling reactions also gave high diastereoselectivities when a- and (3-substituted enoates were used as the coupling partners. 

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