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Biotransformation processes methylation

Since MIPs are highly stable and can be sterilised, they are valuable for use in biotransformation processes (Ramstrom and Mosbach, 1999). The application of MIP in catalytic reaction has been demonstrated with reference to the enzymic condensation of Z-L-aspartic acid with L-phenylalanine methyl ester to give Z-aspartame (Ye et al., 1999). In this study, when the product-imprinted polymer was present, a considerable increase (40%) in product yield was found. [Pg.86]

Recently, we [67] have described the reduction of the methyl ester of 4-chloro-3-oxobutanoic acid (39) to the methyl ester of S-( )-4-chloro-3-hydroxy-butanoic acid (40) (Fig. 13) by cell suspensions of Geotrichum candidum SC 5469., S ( )-(40) is a key chiral intermediate in the total chemical synthesis of a cholesterol antagonist (SQ 33600), which acts by inhibiting hydroxymethylglu-taryl CoA (HMG CoA) reductase. In the biotransformation process, a reaction... [Pg.156]

Biotransformation reactions can be classified as phase 1 and phase 11. In phase 1 reactions, dmgs are converted to product by processes of functionalization, including oxidation, reduction, dealkylation, and hydrolysis. Phase 11 or synthetic reactions involve coupling the dmg or its polar metaboHte to endogenous substrates and include methylation, acetylation, and glucuronidation (Table 1). [Pg.269]

Biosynthetic production of thymidine is overall a complex process combining the controlled introduction of a novel biotransformation step into a biological system with selective enhancement or knock-out of a series of existing metabolic steps. Metabolic engineering to enhance cofactor recycling at both ribonucleotide reduction and dUMP methylation steps has important parallels in other systems, as whole-cell biotransformations are frequently employed as a means to supply, in situ, high-cost and usually labile cofactors. [Pg.28]

In contrast to the oxidative reactions discussed above, the only reported biotransformations of reserpine (21) and rescinnamine (23) (42-44) appear to involve hydrolytic processes. Reserpine is readily metabolized by liver homogenates from the mouse (43), rat, guinea pig, dog, and cat (44) to yield methyl reserpate (22) and 3,4,5-trimethoxybenzoic acid in yields of up to 70% (43). The use of reserpine labeled with tritium in the 2 and 6 positions of the trimethoxybenzoate residue indicated that no significant metabolism of reserpine by another route occurred before hydrolysis, reserpine and 3,4,5-trimethoxybenzoic acid being the only detectable radioactive components of the incubation mixture at the conclusion of the reaction (44). An... [Pg.336]

To date, only a few examples of laboratory preparative-scale processes based on purified enzyme have been reported. Several studies have focused on the small-scale implementation of processes associating a new co-factor regenerating system, enzyme immobilization, membrane reactor, continuous substrate feeding, or resin-based SFPR with various results [110], Using the outstanding stabihty of PAMO, a 200 ml biotransformation of 5g/l phenyl cyclohexanone by an engineered mutant under two-Hquid phase conditions using methyl tert-butyl ether as solvent was described [102]. [Pg.361]

Enterohepatic circulation provides an example of a special case of intestinal absorption. Certain chemicals, like methyl mercury, after undergoing biotransformation in the liver, are excreted into the intestine via the bile. They then can be reabsorbed in the intestine, sometimes after enzymatic modification by intestinal bacteria. This process can markedly prolong the stay of chemicals in the body. It can be... [Pg.3]

Here the biotransformation (Fig. 19-6) is preferred over the chemical reduction with commercially available asymmetric catalysts (BH3- or noble-metal-based), since with the chemocatalysts the desired high enantiomeric excess (ee > 98%, 99.8% after purification) is not achievable. Since the ketone has only a very low solubility in the aqueous phase, 1 kg ketone is added as solution in 4 L 0.9 M H2SO4 to the bioreactor. The bioreduction is essentially carried out in a two-phase system, consisting of the aqueous phase and small droplets made up of substrate and product. The downstream processing consists of multiple extraction steps with methyl ethyl ketone and precipitation induced by pH titration of the pyridine functional group (pfCa = 4.66) with NaOH. The (R)-amino alcohol is an important intermediate for the synthesis of (1-3-agonists that can be used for obesity therapy and to decrease the level of associated type II diabetes, coronary artery disease and hypertension. [Pg.1424]

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See also in sourсe #XX -- [ Pg.16 , Pg.20 ]



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Biotransformation processes

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