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Enzymatic resolution enzymes

One approach called enzymatic resolution, involves treating a racemic mixture with an enzyme that catalyzes the reaction of only one of the enantiomers Some of the most commonly used ones are lipases and esterases enzymes that catalyze the hydrol ysis of esters In a typical procedure one enantiomer of the acetate ester of a racemic alcohol undergoes hydrolysis and the other is left unchanged when hydrolyzed m the presence of an esterase from hog liver... [Pg.312]

Enzymatic resolution (Section 7 13) Resolution of a mixture of enantiomers based on the selective reaction of one of them under conditions of enzyme catalysis... [Pg.1283]

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]

Several L-amino acids are produced on a large scale by enzymatic resolution of N-acetyl-D,L-amino adds (Figure A8.4). Acylase immobilised on DEAE-Sephadex is for example employed in a continuous process while Degussa uses the free acylase retained in a membrane reactor. In the latter process the advantage of reuse of the enzyme and homogeneous catalysis are combined. [Pg.280]

Another example of an enzymatic one-pot multiple Diels-Alder reaction is illustrated in Table 4.20 [83]. Racemic furfuryl alcohols 130 in the presence of ethoxy vinyl methyl fumarate 131 and enzyme TOYOBO-LIP undergo enzymatic acylation followed by kinetic enzymatic resolution to give the acyl derivatives 132 which then affords the adducts 133 and 134 by intramolecular Diels-Alder reaction 3-methyl-furfuryl alcohol 130 (R = Me) in acetone gives the best results. [Pg.182]

The enantioselectivity of biocatalytic reactions is normally expressed as the enantiomeric ratio or the E value [la], a biochemical constant intrinsic to each enzyme that, contrary to enantiomeric excess, is independent of the extent of conversion. In an enzymatic resolution of a racemic substrate, the E value can be considered equal to the ratio of the rates of reaction for the two enantiomers, when the conversion is close to zero. More precisely, the value is defined as the ratio between the specificity constants (k st/Ku) for tho two enantiomers and can be obtained by determination of the k<-at and Km of a given enzyme for the two individual enantiomers. [Pg.3]

Another example of enzyme- and acid-catalyzed DKR has been reported by Bornscheuer [45]. Acyloins were racemized by using an acidic resin through the formation of enol intermediates. The enzymatic resolution was catalyzed by CALB. Since deactivation of this enzyme occurred in the presence of the acidic resin, they designed a simple reactor setup with two glass vials cormected via a pump to achieve a spatial separation between the acidic resin and the enzyme (Figure 4.20). [Pg.102]

The protected E-ring moiety of (S)-camptothecin has been prepared in enantio-merically enriched form by the enzymatic resolution of a triester with PLE in a pH 7 phosphate buffer-acetonitrile (5 1) solution (Figure 6.7). The alkaloid camptothecin is an inhibitor of the enzyme topoisomerase and some of its derivatives are anticancer drugs [52]. [Pg.137]

Catalytic transformation based on combined enzyme and metal catalysis is described as a new class of methodology for the synthesis of enantiopure compounds. This approach is particularly useful for dynamic kinetic resolution in which enzymatic resolution is coupled with metal-catalyzed racemization for the conversion of a racemic substrate to a single enantiomeric product. [Pg.59]

Enantiomerically pure japonilure [(4JR,5Z)-5-tetradecen-4-olide, 26] is commercially important to attract the Japanese beetle (Popillia japonica), because only pure (4.R,5Z)-26 is bioactive, while ( )-26 is totally inactive. Synthesis of (4 ,5Z)-26 via enzymatic resolution of racemic intermediates was first reported by Sugai [63], and then further studied by Fukusaki [64] to establish the process as summarized in Scheme 39. Lipase PS (Amano) from Pseudomonas sp. and lipase OF (Meito) from Candida cylindracea were shown to be the enzymes of choice. [Pg.27]

Enzymatic resolution, in oxazolidinone preparation, 17 739-740 Enzymatic stone-washing, 10 302 Enzymatic sweetener production, 10 286-287 Enzyme activity in flax fiber, 11 599... [Pg.321]

Other examples of efficient enzymatic resolutions by reaction at a remote position from stereocentres have been reported, such as the lipase-catalysed resolution of a synthetic intermediate of escitalopram." This property of enzymes has also been effectively used to resolve sterically hindered compounds by the introduction of a tether so that the enzyme-catalysed reaction can be performed at an artificially created, but less hindered, remote location. An example is the resolution of tertiary alcohols by the introduction of a glyoxylate ester. [Pg.40]

R. Smits, B. Koksch, How C -fluoroalkyl amino acids and peptides interact with enzymes Studies concerning the influence on proteolytic stability, enzymatic resolution and peptide coupling, Curr. Top. Med. Chem. 6(14) (2006) 1483-1498. [Pg.756]

In the enzymatic resolution using water media it is not easy to separate the product from the enzyme-water system on a large scale. A practical enzymatic resolution of a furanol with a fluoroalkyl group is achieved in organic media. This sequence is used for the large scale production of optically active furanol with a CF3 group [25]. [Pg.108]

Enzymatic resolution of racemic secondary alcohols by enantiomer-selective acylation gives optically pure compounds with up to 50% yield [332], When this method is coupled with the principle of dynamic kinetic resolution (see Section 1.4.1.5), the theoretical yield increases to 100%. Thus a reaction system consisting of an achiral transition-metal catalyst for racemization, a suitable enzyme, acetophenone, and an acetyl donor allows the transformation of racemic 1-phenylethanol to the R acetates with an excellent ee (Scheme 1.93) [333]. The presence of one equiv. of acetophenone is necessary to promote the alcohol racemization catalyzed by the... [Pg.80]

The overall process for this enzymatic resolution is compared with the conventional chemical process in Fig. 14. The enzymatic process can skip several tedious steps which are necessary in chemical resolution and this is a considerable practical advantage. There have been several reports on the application of enzymatic asymmetric hydrolysis to the optical resolution of pantolactone [141, 142], In these cases, esterified substrates, such as O-acetyl or O-formyl pantolactone, and lipases were used as the starting materials and catalysts, respectively. Since the lactonase of F. oxysporum hydrolyzes the intramolecular ester bond of pantolactone, it is not necessary to modify the substrate, pantolactone. This is one of the practical advantages of this enzyme. [Pg.77]

See other pages where Enzymatic resolution enzymes is mentioned: [Pg.92]    [Pg.92]    [Pg.109]    [Pg.47]    [Pg.161]    [Pg.162]    [Pg.324]    [Pg.328]    [Pg.120]    [Pg.37]    [Pg.139]    [Pg.118]    [Pg.184]    [Pg.3]    [Pg.220]    [Pg.643]    [Pg.356]    [Pg.358]    [Pg.118]    [Pg.126]    [Pg.140]    [Pg.171]    [Pg.12]   


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