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Chirality asymmetric synthesis

Chiral hydrazones for asymmetric alkylations (RAMP/SAMP hydrazones- D. Enders "Asymmetric Synthesis" vol 3, chapt 4, Academic Press 1983)... [Pg.79]

Clearly, there is a need for techniques which provide access to enantiomerically pure compounds. There are a number of methods by which this goal can be achieved . One can start from naturally occurring enantiomerically pure compounds (the chiral pool). Alternatively, racemic mixtures can be separated via kinetic resolutions or via conversion into diastereomers which can be separated by crystallisation. Finally, enantiomerically pure compounds can be obtained through asymmetric synthesis. One possibility is the use of chiral auxiliaries derived from the chiral pool. The most elegant metliod, however, is enantioselective catalysis. In this method only a catalytic quantity of enantiomerically pure material suffices to convert achiral starting materials into, ideally, enantiomerically pure products. This approach has found application in a large number of organic... [Pg.77]

Simple esters cannot be allylated with allyl acetates, but the Schiff base 109 derived from o -amino acid esters such as glycine or alanine is allylated with allyl acetate. In this way. the o-allyl-a-amino acid 110 can be prepared after hydrolysis[34]. The Q-allyl-o-aminophosphonate 112 is prepared by allylation of the Schiff base 111 of diethyl aminomethylphosphonates. [35,36]. Asymmetric synthesis in this reaction using the (+ )-A, jV-dicyclohex-ylsulfamoylisobornyl alcohol ester of glycine and DIOP as a chiral ligand achieved 99% ec[72]. [Pg.306]

There have been several reviews of asymmetric synthesis via chiral organoboranes (6,8,378,382,467—472). Asymmetric induction in the hydroboration reaction may result from the chiraHty present in the olefin (asymmetric substrate), in the reagent (asymmetric hydroboration), or in the catalyst (catalytic asymmetric hydroboration). [Pg.321]

G. M. Coppola andH. F. Asymmetric Synthesis Construction of Chiral Molecules Using Amino Acids, oBis N d y dn Sons, Inc., New York, 1987. [Pg.264]

J. D. Morrison and J. W. ScoXt, Asymmetric Synthesis, Vol. 4, The Chiral Carbon Pool and Chiral Sulfur, Nitrogen, Phosphorus, and Silicon Centers, Academic Press, Inc., Odando, Fla., 1984. [Pg.264]

The primary disadvantage of the conjugate addition approach is the necessity of performing two chiral operations (resolution or asymmetric synthesis) ia order to obtain exclusively the stereochemicaHy desired end product. However, the advent of enzymatic resolutions and stereoselective reduciag agents has resulted ia new methods to efficiently produce chiral enones and CO-chain synthons, respectively (see Enzymes, industrial Enzymes in ORGANIC synthesis). Eor example, treatment of the racemic hydroxy enone (70) with commercially available porciae pancreatic Hpase (PPL) ia vinyl acetate gave a separable mixture of (5)-hydroxyenone (71) and (R)-acetate (72) with enantiomeric excess (ee) of 90% or better (204). [Pg.162]

Kinetic Resolutions. From a practical standpoint the principal difference between formation of a chiral molecule by kinetic resolution of a racemate and formation by asymmetric synthesis is that in the former case the maximum theoretical yield of the chiral product is 50% based on a racemic starting material. In the latter case a maximum yield of 100% is possible. If the reactivity of two enantiomers is substantially different the reaction virtually stops at 50% conversion, and enantiomericaHy pure substrate and product may be obtained ia close to 50% yield. Convenientiy, the enantiomeric purity of the substrate and the product depends strongly on the degree of conversion so that even ia those instances where reactivity of enantiomers is not substantially different, a high purity material may be obtained by sacrificing the overall yield. [Pg.337]

MEYERS Asymmetric synthesis Chiral oxaioles in asymmetric synthesis of cartxixylic acids, aldehydes, chiral dihydronaphthalenes. [Pg.258]

This group was used as a protective group and chiral directing group for the asymmetric synthesis of o -aminophosphonic acids. It is cleaved by acid hydrol-... [Pg.699]

Chiral oxazoline-based synthetic methods have been employed in the asymmetric synthesis of a large number of natural products. A few representative examples of these applications are shown below. [Pg.244]

Catalytic asymmetric synthesis with participation and formation of heterocycles (including asymmetric phase transfer reactions and asymmetric reactions with chiral Lewis catalysts) 93MI1. [Pg.206]

Stereoselective asymmetric synthesis with participation of diazocarbonyl intermediates in the presence of catalysts possessing chiral heterocyclic ligands 97CC983. [Pg.206]

Chiral carbenoid complexes with 2,2 -bipyridine ligands for asymmetric synthesis 98YGK764. [Pg.219]

The powerful influence of an oxygen substituent on the rate and stereoselectivity of cyclopropanation augured well for the development of a chiral auxiliary based approach to asymmetric synthesis [54]. The design of the chiral auxiliary would take into account ... [Pg.108]

An alternative approach to asymmetric synthesis that avoids covalent modification of the substrate is chiral modification of the active reagent. This not only streamlines the number of synthetic manipulations, but it simplifies the isolation of the desired product. In the case of zinc carbenoids, such modifications are feasible alternatives to the use of a standard chiral auxiliary. Two important factors combine... [Pg.115]

Asymmetric synthesis is a stimulating academic challenge, but since it has become clear that most chiral drugs can be administered safely only in the enantiomerically pure form, the industrial need for asymmetric methods has made research in asymmetric synthesis absolutely necessary [5]. This has driven a renaissance in the discipline of organic chemistry, because all of the old-established reactions need to be reinvestigated for their application in asymmetric synthesis [6]. This has also applied... [Pg.210]

For his work on chirally catalyzed oxidation reactions, representing a major contribution to the development of catalytic asymmetric synthesis, K. B. Sharpless was awarded the Nobel Prize for chemistry in 2001. ... [Pg.258]

Asymmetric synthesis based on INOC using a chiral nimle oxides is a standard method for obtaining enandomerically pure compounds A useful synthesis of enandomerically pure pyrano- and oxepanoisoxazole derivadves by appLicadon of INOC is presented in Eq 8 71... [Pg.263]

The synthesis of f-i-i-crotanecine is accomplished in 10 steps in a 10.2% overall yield, as shown in Scheme 8.42. The key step in the asymmetric synthesis is a Lewis acid-promoted, tandem inter [4-i-2 /intra [3-i-2 cycbaddidon between a ffumaroyloxyxiitroalkene and chiral fi-silylvinyl ether, in which the snbsdtuted silanes are used as hydroxy synthons. ... [Pg.290]

See other pages where Chirality asymmetric synthesis is mentioned: [Pg.58]    [Pg.14]    [Pg.243]    [Pg.58]    [Pg.14]    [Pg.243]    [Pg.171]    [Pg.36]    [Pg.126]    [Pg.367]    [Pg.378]    [Pg.858]    [Pg.397]    [Pg.321]    [Pg.323]    [Pg.324]    [Pg.241]    [Pg.247]    [Pg.280]    [Pg.154]    [Pg.29]    [Pg.79]    [Pg.575]    [Pg.158]    [Pg.10]    [Pg.238]    [Pg.240]    [Pg.365]    [Pg.106]    [Pg.253]    [Pg.149]    [Pg.94]   
See also in sourсe #XX -- [ Pg.804 , Pg.805 , Pg.806 , Pg.807 , Pg.808 , Pg.809 , Pg.810 , Pg.811 , Pg.812 , Pg.813 , Pg.814 , Pg.815 , Pg.816 , Pg.817 , Pg.818 , Pg.819 ]

See also in sourсe #XX -- [ Pg.804 , Pg.805 , Pg.806 , Pg.807 , Pg.808 , Pg.809 , Pg.810 , Pg.811 , Pg.812 , Pg.813 , Pg.814 , Pg.815 , Pg.816 , Pg.817 , Pg.818 , Pg.819 ]



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