Chiral acetic acid

Shinohara, T., Kondo, K., Ogawa, H., Mori, T., Nozaki, K. and Hiyama, T. Practical Stereoselective Synthesis of (2,3,4,5-Tetrahydro-lH-Benzo[b]azepin-5-yl)acetic Acid. Chirality, 2000, 12, 425 30. 

Is the product from the a chlorination of (R)-sec-butyl phenyl acetic acid chiral Is it optically active ... 

C-3 and converted it in a coupled reaction sequence into thymi-dylic acid which was then degraded to recover the methyl group as acetic acid. Chirality analysis of the acetic acid showed that it was indeed chiral and had the configuration shown in Scheme... 

The wide applicability of the PK reaction is apparent in the synthesis of pyrroles, for example, 45, en route to novel chiral guanidine bases, levuglandin-derived pyrrole 46, lipoxygenase inhibitor precursors such as 47, pyrrole-containing zirconium complexesand iV-aminopyrroles 48 from 1,4-dicarbonyl compounds and hydrazine derivatives. The latter study also utilized Yb(OTf)3 and acetic acid as pyrrole-forming catalysts, in addition to pyridinium p-toluenesulfonate (PPTS). 

The chiral catalyst was made from Raney nickel, which was prepared by addition in small portions of 3.9 g Raney nickel alloy to 40 ml water containing9 g NaOH. The mixture was kept at 100 C for 1 h, and then washed 15 times with 40 ml water. Chirality was introduced by treatment of the Raney nickel for I h at lOO C with 178 ml water adjusted to pH 3.2 with NaOH and containing 2g (S,S)-tartaric acid and 20 g NaBr. The solution was then decanted, and the modifying procedure was twice repeated. Hydrogenation over this catalyst of acetylacctone (100 atm, 100" C) in THF containing a small amount of acetic acid gave an isolated yield of chiral pentanediol of 44% (99.6% optical purity). 

In asymmetric Strecker synthesis ( + )-(45,55 )-5-amino-2,2-dimethyl-4-phenyl-l,3-dioxane has been introduced as an alternative chiral auxiliary47. The compound is readily accessible from (lS,25)-2-amino-l-phcnyl-l,3-propancdioI, an intermediate in the industrial production of chloramphenicol, by acctalization with acetone. This chiral amine reacts smoothly with methyl ketones of the arylalkyl47 or alkyl series48 and sodium cyanide, after addition of acetic acid, to afford a-methyl-a-amino nitriles in high yield and in diastereomerically pure form. 

In contrast to the low stereoselections realized in the above syntheses utilizing imines of various chiral aldehydes79-8 1, an almost complete stereoselectivity is reported for the Ugi reaction of 2,3 4,5-bis-O-isopropylidenearabinose with ammonia, acetic acid and cyclohexyl isocyanide giving the 2-acetamino-2-deoxyglueono amides as the exclusive products84. 

In another approach to the meso problem , utilization of a chiral auxiliary attached at nitrogen appears to induce very high stereoselectivity. Reduction of the optically active imide 10a (see Appendix) with tetramethylammonium triacetoxyborohydridc in acetone/ acetic acid at 25 "C gives a 4 96 mixture of the diastcreomers 11a and 12a in 87% yield44. On changing the solvent to acetonitrile/acetic acid the diastereomeric ratio is improved to < 1 99, but the yield is lower (63%). 

Only one example, showing high stereoselectivity, is known in this class of reactions. On treatment of the acyclic glycine cation equivalent 1 (see Appendix), containing the ( + )-cam-phor-10-sulfonamide ester as a chiral auxiliary, with boron trifluoridc and anisole at 0"C a mixture of aromatic substitution products is obtained in essentially quantitative yield 55. Besides 11 % of cuV/io-substitution product, the mixture contains (R,S)-2 and its (/ ,/ )-epimer in a ratio >96 4 (NMR). The same stereoisomer 2 predominates when the reaction is conducted in sulfuric acid/acetic acid 1 9, although the selectivity is slightly lower (91 9 besides 25% of ortho substitution). 

The enantiomeric excess (ee) of the hydrogenated products was determined either by polarimetry, GLC equipped with a chiral column or H-NMR with a chiral shift reagent. Methyl lactate and methyl 3-hydroxybutanoate, obtained from 1 and 2, respectively, were analized polarimetry using a Perkin-Elmer 243B instrument. The reference values of [a]o(neat) were +8.4° for (R)-methyl pyruvate and -22.95° for methyl 3-hydroxybutcinoate. Before GLC analysis, i-butyl 5-hydroxyhexanoate, methyl 5-hydroxyhexanoate, and n-butyl 5-hydroxyhexanoate, obtained from 1, 5, and 6, respectively, were converted to the pentanoyl esters, methyl 3-hydroxybutanoate was converted to the acetyl ester, and methyl 4-methyl-3-hydroxybutanoate obtained from 2 was converted the ester of (+)-a-methyl-a-(trifluoromethyl)phenyl acetic acid (MTPA). 

Nagao, Y., Hagiwara, Y., Kumagai, T., Ochiai, M., Inoue, T., Hashimoto, K., and Fujita, E. (1986). New C4-chiral l,2-thiazolidine-2-thiones Excellent chiral auxiliaries for highly diastereocontrolled aldol-type reactions of acetic acid and a,b-unsaturated aldehydes. J. Org. Chem. 51, 2391-2393. 

The concept of using colloids stabilized with chiral ligands was first applied by Bonnemann to hydrogenate ethyl pyruvate to ethyl lactate with Pt colloids. The nanoparticles were stabilized by the addition of dihydrocinchonidine salt (DHCin, HX) and were used in the liquid phase or adsorbed onto activated charcoal and silica [129, 130]. The molar ratio of platinum to dihydrocinchonidine, which ranged from 0.5 to 3.5 during the synthesis, determines the particle size from 1.5 to 4 nm and contributes to a slight decrease in activity (TOF = l s ). In an acetic acid/MeOH mixture and under a hydrogen pressure up to 100 bar, the (R)-ethyl lactate was obtained with optical yields of 75-80% (Scheme 9.11). 

One example of the use of 2D-NMR experiments in conformational analysis is the study of molecular interactions between cinchonidine and acetic acid [26]. These alkaloids are used as chiral auxiliaries in enantioselective hydrogenations, and the enantiomeric excess is dependent on solvent polarity, acetic acid being a good solvent This suggests that protonation and a preferred conformation play a role in achieving high enantioselectivities. With a combination of COSY-experiments, 3J coupling constants and NOESY experiments, it was shown that one conformer is preferred in acidic solutions. 

A cobalt complex containing this type of ligand is effective in the sodium borohydride-mediated enantioselective reduction of a variety of a,/ -unsaturated carboxylates. As can be seen from Scheme 6-8, in the presence of a catalytic amount of a complex formed in situ from C0CI2 and chiral ligand 11, reduction proceeds smoothly, giving product with up to 96% ee. The chiral ligand can easily be recovered by treating the reaction mixture with acetic acid. 

Novel bicyclic imidazo-oxazaphosphinines have been synthesized in high diastereoselectivity by Marsault and Just <1996TL977>. In the first step, iV-tritylimidazole 209 was lithiated and, subsequently, treated with (.S )-propylcnc oxide as a chiral auxiliary and acetic acid to give the intermediate 210, which was reacted with alkyl dichlorophos-phite to yield the ring-closed product 211 as a single diastereomer (Scheme 33). Extension of these approaches for further derivatives 212 has also been published <1998NN939>. 

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