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Direct enzymatic synthesis

Fukuzawa, A., Aye, M., and Murai, A. (1990) A direct enzymatic synthesis of laurencin from laurediol. Chem. Lett., 19, 1579-1580. [Pg.411]

Mono cylDiols. Enzymatic synthesis of chiral monoacyl diols can be carried out either by direct enzymatic acylation of prochiral diols or by hydrolysis of chemically synthesized dicarboxylates. [Pg.335]

The protein was oxidized and reduced as described in Table 3. This table and the assays for binding of L12 to depleted ribosomes, poly(U>directed polyphenylalanine synthesis, and enzymatic acetylation of L12 to form L7 are from Caldwell and coworkers37. [Pg.858]

Another observation on oxalate formation is that other a-keto acids, such as oxalosuccinic acid (74) and a-ketoglutaric acid (106) do not seem to yield oxalate directly but indirectly (123). This appears to be due to the fact that only oxaloacetic acid can function as an acetate donor. In this connection the intervention of Coenzyme A may be considered, since it is reported to function in the acetylation of sulfanilamide and choline (73) and recently was shown to take part in the enzymatic synthesis of citric acid. This concept may be illustrated as follows ... [Pg.77]

An alternative approach to the production of subunit vaccines entails their direct chemical synthesis. Peptides identical in sequence to short stretches of pathogen-derived polypeptide antigens can be easily and economically synthesized. The feasibility of this approach was first verified in the 1960s, when a hexapeptide purified from the enzymatic digest of tobacco mosaic virus was found to confer limited immunological protection against subsequent administration of the intact virus. (The hexapeptide hapten was initially coupled to bovine serum albumin, used as a carrier to ensure an immunological response.)... [Pg.402]

Scheme 43.5 Direct hydrogenation of cofactors with transition-metal complexes in an enzymatic synthesis. Scheme 43.5 Direct hydrogenation of cofactors with transition-metal complexes in an enzymatic synthesis.
The enzymatic synthesis of sucrose also throws light on the formation of the furanose form of fructose in the sucrose molecule. The fact that sucrose is directly formed from D-glucose-l-phosphate and D-fructose supports Isbell and Pigman s34 and Gottschalk s85 evidence that the latter monosaccharide occurs in solution in an equilibrium mixture of furanose and pyranose forms. This makes it unnecessary to postulate a special mechanism of stabilization of a five membered (furanose) ring before the formation of compound sugars containing the D-fructose molecule.86... [Pg.52]

One of the best examples of the utility of enzymatic synthesis in catalyzing reactions that cannot be accomplished by any other route is the synthesis of substituted oxazolidine diesters. The oxazolidine ring is extremely water sensitive, the oxazolidine rapidly reverting back to the alkanolamine and aldehyde in the presence of water. Bis-oxazolidines have been used as hardeners for polymer coatings but the diester based on the hydroxyethyl oxazolidine and adipic acid cannot be synthesized directly with chemical catalysis because of the rapid rate of reaction of the oxazolidine ring with either the water from the esterification or the alcohol from transesterification. ... [Pg.173]

An optimised enzymatic synthesis of methyl benzoate in an organic medium was reported by Leszczak and Tran-Minh [43]. Methyl benzoate is part of the aroma of some exotic fruits and berries. The ester has been produced by direct esterification of benzoic acid with methanol in hexane/toluene catalysed by lipase from Candida rugosa. [Pg.492]

Enzymatic synthesis of RNA from a DNA template runs along the template strand toward its 5 end. In a gene, this corresponds to movement in the 5 to 3 direction along the complementary coding strand. The 5 to 3 direction on the coding... [Pg.15]

Being restricted to DHAP as the nucleophile, aldol additions will only generate ketoses and derivatives from which aldose isomers may be obtained by biocatalytic ketol isomerization (cf. Sect. 7.1) [306]. For a more direct entry to aldoses the inversion strategy may be followed (Scheme 19) [290] which utilizes monoprotected dialdehydes. After aldolization and stereoselective chemical or enzymatic ketone reduction, the remaining masked aldehyde function is deprotected to provide the free aldose. Further examples of the directed, stereodivergent synthesis of sugars and related compounds such as aza- or thiosugars are collected in Sect. 7. [Pg.143]

In various mammalian tissues an enzymatic activity has been reported [451-453] which causes the liberation of glycine 149 and acetaldehyde from L-threonine 150 and has therefore been named threonine aldolase (ThrA EC 4.1.2.5). It is curious that a//o-threonine 151 seems to be a more active substrate for this enzyme than is 150. Cleavage of L-3-phenylserine is also catalyzed by mammalian ThrA enzymes [454-456], which in direction of synthesis nonselec-tively produce both threo (152) and erythro (153) configurated adducts from benzaldehyde and 149 [454], The same enzyme preparations were also able to act on 150. Thus, considerable disagreement still exists in the literature about the true nature of these enzymatic activities. [Pg.167]

Examples of substrates released into the culture medium by plant tissue cultures are given in Table 7. The growth rate and yield can be improved by medium optimization. The products from plant tissue cultivations are either directly extracted from the cells or the medium or subjected to biotransformation and enzymatic synthesis. [Pg.118]

RNA molecules are typically much smaller than DNA, and they are more easily hydrolyzed and broken down. RNA commonly serves as a working copy of the nuclear DNA being decoded. Nuclear DNA directs the synthesis of messenger RNA, which leaves the nucleus to serve as a template for the construction of protein molecules in the ribosomes. After it has served its purpose, the messenger RNA is then enzymatically cleaved to its component parts, which become available for assembly into new RNA molecules to direct other syntheses. [Pg.1140]

The following new trends in enzymatic synthesis can be delineated the development of new enzymatic reactions enzyme immobilization and stabilization the use of organic solvents and two phase systems site-directed mutagenesis chemical modification of enzymes antibody catalysis catalysis by RNA and DNA de novo design ofbiocatalists employment of recombinant DNA for production of enzymes and use computational and combinatorial methods... [Pg.168]

Reaction performance. Supercritical carbon dioxide was used as a reaction media for the enzymatic synthesis of oleyl oleate directly from oleic acid and oleyl alcohol. Reaction was catalyzed by immobilized lipase from Rhizomucor miehei-Ltpozyme IM. Reactions were carried out in the high pressure batch and continuous reactor. [Pg.86]

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See also in sourсe #XX -- [ Pg.175 ]



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Directed syntheses

Synthesis directive

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