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Transesterification Transfer hydrogenations

Of the six main classes of enzymes, hydrolases, oxidoreductases and transferases have been the three most useful in kinetic resolution. Among the hydrolases, lipases are extensively used. The molecular machinery of lipases consists of a catalytic triad of the amino acids serine, histidine, and aspartic (or glutamic) acid. The enzyme first transfers the acyl group of an ester to the hydroxyl group of the serine residue to form the acylated enzyme. The acyl group is subsequently transferred to an external nucleophile with the return of the enzyme to its pre-acylated state to start the process again. A variety of nucleophiles can participate in this process water results in hydrolysis, an amine results in amidation, an alcohol results in esterification or transesterification, and hydrogen peroxide results in the formation of perac-id. Another reason which favored the relatively wide applicability of lipases in enzymatic... [Pg.144]

Scheme 14-1. General in-line monoanionic mechanism of phosphodiester cleavage transesterification catalyzed by hairpin ribozyme the first proton transfer (PT1), the nucleophilic attack (Nu), and the exocyclic cleavage (Cl) steps are shown, and the Oip and O2p pathways are indicated by blue and red colored hydrogens, respectively. For the uncatalyzed model reaction in solution, the Ojp and O2p pathways are energetically equivalent... Scheme 14-1. General in-line monoanionic mechanism of phosphodiester cleavage transesterification catalyzed by hairpin ribozyme the first proton transfer (PT1), the nucleophilic attack (Nu), and the exocyclic cleavage (Cl) steps are shown, and the Oip and O2p pathways are indicated by blue and red colored hydrogens, respectively. For the uncatalyzed model reaction in solution, the Ojp and O2p pathways are energetically equivalent...
Utilizing the above two optimized reactions sterns, with SC-CO2 as a common solubilization and reaction agent, a coupled reaction system was constructed. The all flow reactor system tequir pumps for the carbon dioxide, vegetable oil, and methanol, reflectively for the initial transesterification sta. Conversion to the metlqrl esters was achieved at a >98% level before transfer to the hydrogenation reactor. [Pg.114]

Since the beginning of enzyme catalysis in microemulsions in the late 1970s, several biocatalytic transformations of various hydrophilic and hydrophobic substrates have been demonstrated. Examples include reverse hydrolytic reactions such as peptide synthesis [44], synthesis of esters through esterification and transesterification reactions [42,45-48], resolution of racemic amino acids [49], oxidation and reduction of steroids and terpenes [50,51], electron-transfer reactions, [52], production of hydrogen [53], and synthesis of phenolic and aromatic amine polymers [54]. Isolated enzymes including various hydrolytic enzymes (proteases, lipases, esterases, glucosidases), oxidoreductases, as well as multienzyme systems [52], were anployed. [Pg.353]

See other pages where Transesterification Transfer hydrogenations is mentioned: [Pg.552]    [Pg.383]    [Pg.125]    [Pg.538]    [Pg.1435]    [Pg.92]    [Pg.170]    [Pg.118]    [Pg.183]    [Pg.649]    [Pg.98]    [Pg.173]    [Pg.279]    [Pg.551]    [Pg.649]    [Pg.587]    [Pg.550]    [Pg.66]    [Pg.6]   
See also in sourсe #XX -- [ Pg.575 , Pg.634 , Pg.635 ]



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Transesterifications

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