Hydrolysis, enzymatic, solvents

Methods of extracting the fat-soluble vitamin from food matrices include alkaline hydrolysis, enzymatic hydrolysis, alcoholysis, direct solvent extraction, and supercritical fluid extraction of the total lipid component. 

In contrast to the hydrolysis of prochiral esters performed in aqueous solutions, the enzymatic acylation of prochiral diols is usually carried out in an inert organic solvent such as hexane, ether, toluene, or ethyl acetate. In order to increase the reaction rate and the degree of conversion, activated esters such as vinyl carboxylates are often used as acylating agents. The vinyl alcohol formed as a result of transesterification tautomerizes to acetaldehyde, making the reaction practically irreversible. The presence of a bulky substituent in the 2-position helps the enzyme to discriminate between enantiotopic faces as a result the enzymatic acylation of prochiral 2-benzoxy-l,3-propanediol (34) proceeds with excellent selectivity (ee > 96%) (49). In the case of the 2-methyl substituted diol (33) the selectivity is only moderate (50). 

The solubility of iridoids depends on their state (free, glycosylated, acetylated), but usually they are extracted with polar solvents methanol, ethanol, aqueous alcohols, and rarely acetone. Iridoid glycosides are more or less stable some of them are very sensitive to acids and alkalis. Some iridoid glycosides such as aucubin suffer color modification after chemical or enzymatic hydrolysis they give first a blue to green... 

Several extraction techniques have also been described that use enzymatic or chemical reactions to improve extraction efficiency. A technique that has been used to increase the overall recovery of the marker residue is enzymatic hydrolysis to convert specific phase II metabolites (glucuronides or sulfates) back into the parent residue. Cooper etal used a glucuronidase to increase 10-fold the concentration of chloramphenicol residues in incurred tissue. As an example of a chemical reaction, Moghaddam et al. used Raney nickel to reduce thioether bonds between benomyl and polar cellular components, and as a result achieved a substantially improved recovery over conventional solvent extraction. In choosing to use either of these approaches, thorough characterization of the metabolism in the tissue sample must be available. 

A more successful strategy for developing sensitive and facile assays to monitor PLCBc activity involves converting the phosphorylated headgroup into a colorimetric agent via a series of enzyme coupled reactions. For example, phosphatidylcholine hydrolysis can be easily monitored in a rapid and sensitive manner by enzymatically converting the phosphorylcholine product into a red dye through the sequential action of alkaline phosphatase, choline oxidase, and peroxidase [33]. This assay, in which 10 nmol of phosphorylcholine can be readily detected, may be executed in a 96-well format and has been utilized in deuterium isotope and solvent viscosity studies [34] and to evaluate inhibitors of PLCBc [33] and site-directed mutants of PLCBc [35,36]. 

Because solvent viscosity experiments indicated that the rate-determining step in the PLCBc reaction was likely to be a chemical one, deuterium isotope effects were measured to probe whether proton transfer might be occurring in this step. Toward this end, the kinetic parameters for the PLCBc catalyzed hydrolysis of the soluble substrate C6PC were determined in D20, and a normal primary deuterium isotope effect of 1.9 on kcat/Km was observed for the reaction [34]. A primary isotope effect of magnitude of 1.9 is commonly seen in enzymatic reactions in which proton transfer is rate-limiting, although effects of up to 4.0 have been recorded [107-110]. 

By forming intramolecular and intermolecular hydrogen bonds between OH groups within the same cellulose chain and the surrounding cellulose chains, the chains tend to be arranged in parallel and form a crystalline supermolecular stracture. Then, bundles of linear cellulose chains (in the longitudinal direction) form a microfibril which is oriented in the cell wall structure. Cellulose is insoluble in most solvents and has a low accessibility to acid and enzymatic hydrolysis (Demirbas, 2008b). 

The free a-amino groups of the ornithine units were also found in an acetylated form 90, 243). Since triacetylfusigen is resistant to hydrolysis, formation of the acetylated mono-, di-, and trimeric linear acetylfusarinines is assumed to be effected by enzymatic cleavage 103a, 243). X-ray and CD data of the Fe " complex of triacetylfusigen have been obtained 152). Depending on the solvent used for crystallization the crystals show A-cis or A-cis configuration, while in solution A-cis prevails. 

Vitamin K is traditionally extracted with solvents such as acetone or ethanol, followed by a sample clean-up, such as enzymatic hydrolysis [498,499], column chromatography [308], TEC [500,501], SPE [502,503], or a combination of them. Gao and Ackman [504] couple two different methods, an SPE purification, previously reported by Eerland and Sadowski [505], preceded by a modified enzymafic digestion from fhe original procedure of Bueno and Villalobos [506]. They observe fhaf SPE step is nol enough to purify the sample. Jacob and Elmadfa [507] report an extraction from food with different solvents (according to the type of food), the evaporation of these and re-dissolving in hexane to perform a simple LEE as the clean-up step using methanol/water. SFE has been successfully applied for phylloquinone extraction from powdered infant formulas [497]. 

Sample extraction and hydrolysis details e.g., solvent extraction after freeze drying, with optimized acid or enzymatic hydrolysis Preparation of flavonoid standards and use of internal standards Chromatographic separation and detection method used, ideally RP-HPLC with UV or fluorescent detection Outline of quality assurance procedures employed... 

Facilitated transport of penicilHn-G in a SLM system using tetrabutyl ammonium hydrogen sulfate and various amines as carriers and dichloromethane, butyl acetate, etc., as the solvents has been reported [57,58]. Tertiary and secondary amines were found to be more efficient carriers in view of their easy accessibility for back extraction, the extraction being faciUtated by co-transport of a proton. The effects of flow rates, carrier concentrations, initial penicilHn-G concentration, and pH of feed and stripping phases on transport rate of penicillin-G was investigated. Under optimized pH conditions, i. e., extraction at pH 6.0-6.5 and re-extraction at pH 7.0, no decomposition of peniciUin-G occurred. The same SLM system has been applied for selective separation of penicilHn-G from a mixture containing phenyl acetic acid with a maximum separation factor of 1.8 under a liquid membrane diffusion controlled mechanism [59]. Tsikas et al. [60] studied the combined extraction of peniciUin-G and enzymatic hydrolysis of 6-aminopenicillanic acid (6-APA) in a hollow fiber carrier (Amberlite LA-2) mediated SLM system. 

Since phospholipids were not soluble in water, it was necessary to emulsify them or use organic solvents for the enzymatic phospholipid hydrolyzing. Consequently, the phospholipid (phosphatidylcholine) was hydrolyzed in a two phase system of diethylether and water by a Z-modified lipase. Table I shows the hydrolysis of phospholipid by a modified lipase. 

Early reports on the effects of the choice of solvent on enzymatic enantioselectivity showed that substantial changes may be observed. For the transesterification reaction of sec-phenethyl alcohol with vinyl butyrate catalyzed by subtilisin Carlsberg, a 20-fold increase in the E-value was reported when the medium was changed from acetonitrile to dioxane [59]. Similar changes were recorded for the prochiral selectivity of Pseudomonas sp. lipase in the hydrolysis of 2-substituted... 

Scheme 7.16 Desymmetrization of 2-substituted 1,3-propanediol to (S)-monoacetate by enzymatic hydrolysis in 80% organic solvent.

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