Dynamic kinetic asymmetric enantioselectivity

Notable were highly enantioselective additions of N-phosphonyl imines with dialkyl zinc or hydroxyketones and a one-pot reaction of alkynylzirconocenes with alkynyl phosphazenes and zinc carbenoids to give single isomer cyclopropylphosphonamides. The importance of enantioselective and dynamic kinetic asymmetric transformations is illustrated in many publications. Other interesting reports cover the use of phosphoramidates for the synthesis of allylic amines as well as the first example of C-P cleavage of a-aminophosphono acids using periodate. 

The current review is of necessity selective. Over the two year period covered, there has been impressive advances in several areas of P(V) chemistry. For example, biological aspects of quinquevalent phosphorus acids chemistry continue to increase in importance. A wide variety of natural and unnatural phosphates including inositols, lipids, some carbohydrates and their phospho-nates, phosphinates and fluorinated analogues has been synthesized. Special attention has been paid to the synthesis of phosphorus analogues of all types of amino acids and some peptides. Numerous investigations of phosphate ester hydrolysis and related reactions continue to be reported. Interest in approaches to easier detoxification of insecticides continues. A number of new and improved stereoselective synthetic procedures have been elaborated. The importance of enantioselective and dynamic kinetic asymmetric transformations is illustrated in many publications. 

Ins(l,4,5)P3. A number of phosphates, e.g. (37), which act as inositol monophosphatase inhibitors have been synthesised from the l,6-epoxy-4-benzyloxycyc-lohexan-2-ol (36)7" Conduritol derivatives (39) are useful synthetic building blocks. However, the enantioselective palladium-catalysed allyl alkylation and similar reactions of (38) are complex due to C2 symmetry. It has now been reported that dynamic kinetic asymmetric transformation (DYKAT) of racemic... 

One of the routes leading to P-stereogenic phosphines is electrophilic substim-tion at the phosphorus atom of secondary phosphines, as a result of asymmetric catalysis in which a catalyst activates a phosphorus nucleophile or a carbon electrophile, creating an asymmetric environment, i.e., creating preference for one of Si or Re face sides at the reactive center [103-113]. Upon reaction with chiral metal complexes, racemic secondary phosphines are converted into diaste-reomeric metal-phosphide complexes A or B, which interconvert rapidly through the inversion at phosphorus. If the equilibrium A B is faster than the reaction of A or B with an electrophile E, then P-stereogenic phosphines 196, in which pyramidal inversion is slow, can be formed enantioselectively. The product ratio in this dynamic kinetic asymmetric transformation depends both on and on the rate constants ks and (Scheme 63). 

Cycloaddition of cyclopropanes to aldehydes leads to the formation of tetrahydrofurans derivatives, whose enantiomeric form can be obtained either by using enantioenriched cyclopropane substrates or by a dynamic kinetic asymmetric transformation. In this regard, Johnson et al. reported a dynamic kinetic asymmetric [3 -I- 2] cycloaddition of racemic cyclopropanes 63 for the enantioselective synthesis of tetrahydrofurans 64. In this study, the magnesium catalyst can promote the ring opening of the racemic cyclopropane and catalyses the reaction of one of the ring-opened enantiomers with the aldehydes (Scheme 3.19). 

Trost BM, Toste FD (1999) Palladium-Catalyzed Kinetic and Dynamic Kinetic Asymmetric Transformation of 5-Acyloxy-2-(5H)-furanone. Enantioselective Synthesis of (-)-Aflatoxin B Lactone. J Am Chem Soc 121 3543... 

In addition, the same group has studied the ability to use aliphatic alcohols as competent nucleophiles in the Pd-catalysed dynamic kinetic asymmetric transformation of Baylis Hillman adducts. The corresponding substituted pyran products were obtained in high yields and enantioselectivities, as shown in Scheme 2.55. The utility of this method was further demonstrated in the context of concise total syntheses of the gastrulation inhibitor, (-l-)-hippo-spongic acid A, and the antibiotics, furaquinocins A, B and E. 

Toste s group made several modifications of bis(HBHC)-digold complex 40 by placing differently substituted aryl groups at the binaphthyl 3,3 -positions of the diamine synthon and examined them in catalytic dynamic kinetic asymmetric transformations of propargyl esters (Scheme 16.14) [29b]. Drastic substituent effects on enantioselectivity were observed, with j -trifluoromethylphenyl-... 

Millet, R., Traff, A. M., Petrus, M. L., and Backvall, J. E. (2010). Enantioselective synthesis of syn- and anti-l,3-aminoalcohols via beta-aminoketones and subsequent reduction/ dynamic kinetic asymmetric transformation. /. Am. Chem. Soc., 132,15182-15184. 

Hydantoinases belong to the E.C.3.5.2 group of cyclic amidases, which catalyze the hydrolysis of hydantoins [4,54]. As synthetic hydantoins are readily accessible by a variety of chemical syntheses, including Strecker reactions, enantioselective hydantoinase-catalyzed hydrolysis offers an attractive and general route to chiral amino acid derivatives. Moreover, hydantoins are easily racemized chemically or enzymatically by appropriate racemases, so that dynamic kinetic resolution with potential 100% conversion and complete enantioselectivity is theoretically possible. Indeed, a number of such cases using WT hydantoinases have been reported [54]. However, if asymmetric induction is poor or ifinversion ofenantioselectivity is desired, directed evolution can come to the rescue. Such a case has been reported, specifically in the production of i-methionine in a whole-cell system ( . coli) (Figure 2.13) [55]. 

Asymmetric synthesis can refer to any process which accesses homochiral products. We will focus on asymmetric synthesis from racemic or prochiral starting materials in the presence of an enantioselective catalyst (enzyme). There are four general methodologies commonly applied kinetic resolution, dynamic kinetic resolution, deracemization and... 

Dynamic Resolution of Chirally Labile Racemic Compounds. In ordinary kinetic resolution processes, however, the maximum yield of one enantiomer is 50%, and the ee value is affected by the extent of conversion. On the other hand, racemic compounds with a chirally labile stereogenic center may, under certain conditions, be converted to one major stereoisomer, for which the chemical yield may be 100% and the ee independent of conversion. As shown in Scheme 62, asymmetric hydrogenation of 2-substituted 3-oxo carboxylic esters provides the opportunity to produce one stereoisomer among four possible isomers in a diastereoselective and enantioselective manner. To accomplish this ideal second-order stereoselective synthesis, three conditions must be satisfied (1) racemization of the ketonic substrates must be sufficiently fast with respect to hydrogenation, (2) stereochemical control by chiral metal catalysts must be efficient, and (3) the C(2) stereogenic center must clearly differentiate between the syn and anti transition states. Systematic study has revealed that the efficiency of the dynamic kinetic resolution in the BINAP-Ru(H)-catalyzed hydrogenation is markedly influenced by the structures of the substrates and the reaction conditions, including choice of solvents. 

The first strategy involves discrimination between enantiotopic leaving groups (Type A). In the second approach, two enantiomers of a racemic substrate converge into a meso-n-al y complex wherein preferential attack of the nucleophile at one of either allylic termini leads to asymmetric induction, a process that may be referred to as a dynamic kinetic enantioselective transformation (Type B). The third requires differentiation between two enantiotopic transition... 

Dynamic kinetic resolution of racemic ketones proceeds through asymmetric reduction when the substrate does racemize and the product does not under the applied experimental conditions.29 For example, baker s yeast reduction of (/ /5)-2-(4-methoxyphenyl)-l,5-benzothiazepin-3,4(2H,5H)-dione gave only (25, 35)-alcohol as a product out of four possible isomers as shown in Figure 28 (a).29a Only (5)-ketone was recognized by the enzyme as a substrate and reduction of the ketone proceeded enantioselectively. The resulting product was used for the synthesis of (25, 35)-Diltiazem, a coronary vasodilator. 

Wilson RM, Jen WS, MacMillan DWC (2005) Enantioselective organocatalytic intramolecular Diels-Alder reactions. The asymmetric synthesis of solana-pyrone D. J Am Chem Soc 127 11616-11617 Xie JH, Zhou ZT, Kong WL, Zhou QL (2007) Ru-catalyzed asymmetric hydrogenation of racemic aldehydes via dynamic kinetic resolution efficient synthesis of optically active primary alcohols. J Am Chem Soc 129 1868-1869... 

Optically active a-hydroxy carboxylic acids are useful intermediates in medicinal chemistry and asymmetric synthesis (Coppola and Schuster 1997). Enantioselective biotransformations of a-hydroxy nitriles (cyanohydrins) are important because they can lead to a dynamic kinetic resolution from readily available starting material. 

The enantioselective hydroaminations of allenes with chiral phosphine catalysts was accomplished with substrates that had a terminal symmetric substitution and with the amines protected as carbamates or sulfonamides. The same symmetric substituents were necessary for the enantioselective transformation nsing chiral counterions. However, very recently, high enantiomeric excesses were reached with trisubstituted asymmetric allenes by a dynamic kinetic enantioselective hydroamination of allenyl carbamates (eqnation 110), even thongh the E/Z ratio of the prodncts was not optimal. 

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