Crystallization diastereoselection

The diastereoselectivity is observed in the Henry reaction using optical active niti o compounds or a-heteroatom substituted aldehydes. Lor example, the reaction of O-benzyl-D-lactal-dehyde with methyl 3-niti opropionate in the presence of neubal alumina leads to a mixture of three niti o-aldol products from which D-ribo isomer is isolated by direct crystallization. D-Ribo... 

Lewis acids, results in the formation of isopulegol (43) with greater than 98% diastereoselectivity isopulegol (43), wherein all of the ring substituents are equatorially oriented, arises naturally from a chairlike transition state structure in which the C-3 methyl group, the coordinated C-l aldehyde carbonyl, and the A6,7 double bond are all equatorial (see 48). A low-temperature crystallization raises the chemical and enantiomeric purity of isopulegol (43) close to 100%. Finally, hydrogenation of the double bond in 43 completes the synthesis of (-)-menthol (1). 

The high simple diastereoselectivities observed running the [4-1-3] cycloadditions raised the question concerning the induction of chirality. Preliminary experiments involving chiral menthyloxy Fischer carbenes 169 (R = (-)-men-thyl) resulted in the formation of the diastereomeric lactim ethers 173-1 and 173-2 in a 7 3 ratio, which could be separated by means of a crystallization. A final acidic hydrolysis gave the enantiomerically pure e-caprolactams 175 and ent-175 and the acyclic esters, respectively. No signs of racemization have been detected,Eqs. (18,19) [39b]. 

A crystal structure is available for the compound with R = HC=C(CH2)2, and a mechanism was also proposed. On changing the reaction conditions (CH3CN, 82°C) and using Af-propionylimidazole, a tricyclic imidazo[l, 2 l,2]pyrrolo[2,3-6]furan was obtained in a diastereoselective spirocyclization reaction tl59],[157]... 

Seebach and Brenner have found that titanium enolates of acyl-oxazolidinones are added to aliphatic and aromatic nitroalkenes in high diastereoselectivity and in good yield. The effect of bases on diastereoselectivity is shown in Eq. 4.59. Hydrogenation of the nitro products yields y-lactams, which can be transformed into y-amino acids. The configuration of the products is assigned by comparison with literature data or X-ray crystal-structure analysis. 

NMR-spectroscopic studies and a single crystal X-ray structure determination of the reduced Co / form of 100 revealed the presence of a bridging 2,3-dibromo-3-phenyl-propionato ligand (threo dl pair). The complex bearing the erythro form of 2,3-dibromo-3-phenyl-propionate is only produced in minor yields <3%. Therefore, the bromination of the encapsulated alkene is a highly diastereoselective syu-addition. This is rather... 

The high levels of, sy -diastereoselectivity suggest aldolization through a closed Zimmerman-Traxler-type transition structure via intermediacy of the Z-enolate. When the transformation is performed using PhSiDj, a single deuterium is incorporated at the /3-position of the product as an equimolar mixture of epimers, inferring rapid isomerization of the kinetically formed cobalt enolate prior to cyclization or reversible aldol addition. The stereochemistry of the deuterated product was established by single crystal neutron diffraction analysis (Scheme 44). 

A diastereoselective dipolar cycloaddition of chiral nitrone 80 with alkene dipolarophiles afforded imidazo[ 1,2-3]-isoaxazole (Scheme 9). The conversion via N-O reduction of this ring system with Raney-Ni in methanol gave the corresponding pyrrolo[l,2-A imidazole in 66% yield. The structure has been confirmed by X-ray diffraction crystal stmcture analysis <2000SL967>. 

Few structures have been solved for this kind of compound. A crystal structure of (2-R,5R,2 R,5 R)-bi(2,2 - / -butyl-1,1 -aza-3,3 -oxabicyclo[3.3.0] octan-4,4 -one prepared from the diastereoselective dimerization of the pivaloyl oxa-zolidin-5-one derivative of proline has been obtained for the determination of the absolute stereochemistry of the C-a atoms of compound 265. 

In contrast to the solution photochemistry, irradiation of the crystals of le provided remarkably high diastereoselectivities in the formation of 2e. The temperature at which the reaction occurs is important in determining dia-stereoselectivity. At 15 °C, the de of syn-2e was 61 % and the ratio of syn/anti was 8.7, which was the reverse of that in the solution reaction (syn/anti=0.9). The solid-state photoreaction proceeded even at -78 °C, and with higher diastereo-selectivity. At low conversion (9%), only syn isomers (de=93%) were obtained, and 71% de was observed even at 90% conversion. 

Diastereoselective Slrecker reactions based on (R)-phenylglycine amide as chiral auxiliary are reported. The Strecker reaction is accompanied by an In situ crystallization-induced asymmetric transformation, whereby one diastereomer selecliveiy precipitates and can be isolated in 76-33% yield and dr > gsti. The diastereomeilcaily pure a-amino nitrtie obtained from pivaidehyde (R, = t-Bu, Rj = H) was converted in three steps to (S)-tert-leucine in 73% yieid and >98% ee. 

The observed diastereoselectivity in the asymmetric Strecker step via the crystallization-induced asymmetric transformation can be explained as shown in Figure 2. Apparently, the re face addition of CN to the intermediate imine 4 is preferred at room temperature in methanol and results in a dr 65/35. At elevated temperatures in water, the diastereomeric outcome and yield of the process are controlled by the reversible reaction of the amino nitriles 3 to the intermediate imine and by the difference in solubilities of both diastereomers under the applied conditions. . .. 

Diastereoselective Strecker reactions based on (R)-phenylglycine amide as chiral auxiliary are reported. The Strecker reaction is accompanied by an in situ crystallization-induced asymmetric transformation, whereby one diastereomer selectively precipitates and... 

The initial medicinal chemistry route to the azabicyclo[3.3.0]octane-3-carboxylic acid produced the azabicyclo system in a diastereoselective but racemic manner, and required a classical resolution to achieve enantioenriched material (Teetz et al., 1984a, b 1988). Reaction of (R)-methyl 2-acetamido-3-chloropropanoate (43) and 1-cyclopentenylpyrrolidine (44) in DMF followed by an aqueous acidic work-up provided racemic keto ester 45 in 84% yield (Scheme 10.11). Cyclization of 45 in refluxing aqueous hydrochloric acid provided the bicyclic imine, which was immediately reduced under acidic hydrogenation conditions. The desired cis-endo product 46 was obtained upon recrystaUization. The acid was protected as the benzyl ester using thionyl chloride and benzyl alcohol, providing subunit 47 as the racemate. Resolution of 47 was accomplished by crystallization with benzyloxy-carbonyl-L-phenylalanine or L-dibenzoyl-tartaric acid. 

Two equivalents of the tertiary amine base are required, and a significant improvement in the diastereoselectivity was observed with TMEDA over DIPEA. Purification and further enrichment of the desired RRR isomer to >98% ee was achieved by crystallization. Oxidative removal of the chiral auxiliary followed by carbodiimide mediated amide formation provides (3-keto carboxamide 14 in good yield. Activation of the benzylic hydroxyl via PPha/DEAD, acylation, or phosphorylation, effects 2-azetidinone ring-closure with inversion of stereochemistry at the C4 position. Unfortunately, final purification could not be effected by crystallization and the side products and or residual reagents could only be removed by careful chromatography on silica. 

The X-ray crystal structure of fZ)-4-[(5)-2,2-dimethyl-l,3-dioxolan -ylmethyl-ene]-2-phenyl-5(4//)-oxazolone has been determined. " The analysis shows an almost planar disposition for the entire molecule with the exception of the dioxolane ring that adopts an envelope conformation. As such, the dioxolane ring is mainly situated on the si,si diastereotopic face of the olefinic bond, a situation that accounts for the observed diastereoselectivity in Diels-Alder reactions. 

The alkylation of enolates from some recently developed 2-oxazolidinone auxiliaries will be briefly discussed. The Diels-Alder reaction of the enantiomerically pure 3-(apocamphane-carbonyl)-2(3//)-oxazolone 13 with anthracene gives, diastereoselectively, a 97 3 ratio of diastereomeric adducts63. Recrystallization followed by removal of the apocamphanecarbonyl auxiliary and acylation gives the diastereomerically pure enantiomer 14 in good yield. Subsequent enolate formation and alkylation gives highly diastereoselective reactions and easily purified products due to the fact that the major product is readily crystallized. Thus alkylation... 

L-Tetrahydrofolic acid is a versatile intermediate for the manufacture of various folates, e.g., L-leucovorin [19], which is used in cancer therapy, or Metafolin , which is used as a vitamin in functional food. To our knowledge optically pure L-tetrahydrofolic acid is still obtained by repeated fractional crystallization from an equimolar mixture of diastereoisomers formed by nondiastereoselective hydrogenation of folic acid. In order to increase the yield of l-tetrahydrofolic acid and to avoid recrystallization steps, we checked the utility of our ligand for the diastereoselective hydrogenation of folic acid dimethyl ester benzenesulfonate (Scheme 1.4.4). 

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%.

Sertraline is the active pharmaceutical ingredient (API) in Pfizer s antidepressant Zoloft [25]. The developed commercial process employs an SMB chromatographic resolution of tetralone (Scheme 13.10) in >99% ee followed by diastereoselective reductive amination to give 95% sertraline (cis-isomer) and 5% trans-isomer the (4R)-tetralone can be racemized with an alkoxide base [8]. Asymmetric processes to sertraline have been described [26]. Our studies started with the original patented process involving palladium-catalyzed reductive amination of a tetralone to give a mixture of 80% racemic-cis and 20% racemic-trans diastereomers [27]. The cis-diastereomer can be purified by selective crystallization from toluene followed by diastereomeric crystallization of the (lS,4S)-enantiomer using (R)-... 

A remarkably high diastereoselective excess was obtained in the addition of the anion of (S)-(-)-methyl 1-naphthyl sulfoxide to n-alkyl phenyl ketones. The sulfoxide was prepared in optically pure form by oxidation of the complex of methyl 1-naphthyl sulfide and 13-cyclodextrin with peracetic acid followed by crystallization. Desulfurization of the adducts provided enantiomerically pure tertiary alcohols (393]. 

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