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Enzymatic synthesis enzyme activity

C. Oligo- and Poly-nucleotides.—The stepwise enzymatic synthesis of internucleotide bonds has been reviewed. A number of polynucleotides containing modified bases have been synthesised " in the past year from nucleoside triphosphates with the aid of a polymerase enzyme, and the enzymatic synthesis of oligodeoxyribonucleotides using terminal deoxynucleotidyl transferase has been studied. Primer-independent polynucleotide phosphorylase from Micrococcus luteus has been attached to cellulose after the latter has been activated with cyanogen bromide. The preparation of insolubilized enzyme has enabled large quantities of synthetic polynucleotides to be made. The soluble enzyme has been used to prepare various modified polycytidylic acids. ... [Pg.129]

Highly selective enzymatic synthesis using glycosyltransferases (GTFs), an approach restricted by the limited availability of Leloir-type enzymes, and expensive nucleotide-activated substrates... [Pg.102]

Irreversible CYP inhibition can arise from different chemical mechanisms. However, a common initial step is the metabolic activation of a substrate into a reactive metabolite that is trapped within the active site of the CYP to form a tightly bound complex causing a long-lasting inactivation of enzyme activity. Enzymatic activity can be restored only through the new synthesis of the enzyme. For this reason, irreversible CYP inhibition is often referred to as mechanism-based inhibition , metabolite-based inhibition or suicide inhibition . [Pg.268]

Thymine derivatives - 5-[7V-(2-Amino-4-hydroxy-6-methyl-5-pyrimidinyl-propyl)-p-carboxyanilinomethyl] uracil (XXXIII) was synthesized for study as a possible intermediate in the enzymatic synthesis of thymidylate. It is active as an enzyme inhibitor against thymidylate synthetase isolated from E. coli [298]. Certain thymine derivatives containing a 2-thioimidazole moiety (XXXIV, R = alkyl) inhibit growth of Ehrlich ascites carcinoma (fluid form) in mice [299]. [Pg.299]

In the synthesis of A-acetyllactosamin from lactose and A-acetylglucosamine with (3-galactosidase (289,290), the addition of 25 vol% of the water-miscible ionic liquid [MMIM][MeS04] to an aqueous system was found to effectively suppress the side reaction of secondary hydrolysis of the desired product. As a result, the product yield was increased from 30 to 60%. Product separation was improved, and the reuse of the enzymatic catalyst became possible. A kinetics investigation showed that the enzyme activity was not influenced by the presence of the ionic liquids. The enzyme was stable under the conditions employed, allowing its repeated use after filtration with a commercially available ultrafiltration membrane. [Pg.228]

Proposed organization of the enzymatic activities of fatty acid synthase from animal liver. Fatty acid synthase exists as a dimer of two giant identical peptides (Mr = 272,000). Each subunit has one copy of acyl carrier protein (ACP) and each of the enzyme activities involved in fatty acid synthesis is covalently linked. The two peptides are organized in a head-to-tail configuration in such a way that it is possible to make two fatty acid molecules at the same time. [Pg.424]

To better understand the health effects of plant phenolic compounds and to better utilize them, it is necessary to know the molecular mechanisms by which plant phenolic compounds induce cytoprotective enzymes. In vitro studies indicated that plant phenolic compounds such as curcumin often inhibited the enzymatic activities of GST, UGT, SULT as well as cytochrome P450s [Oetari et al., 1996], suggesting that the induction of cytoprotective enzyme activities could not be explained by direct interaction with plant phenolic compounds. On the other hand, much evidence indicates that the increased activity of cytoprotective enzymes are mainly attributable to enhanced transcriptional activation and enzyme synthesis [Holtzclaw et al., 2004]. [Pg.408]

On the other hand, the enzymatic synthesis of glycoconjugates and oligosaccharides leads to high product yields in a short time by stereo- and regioselective one-step reactions. All enzymatic reactions are easy to scale up and are carried out in aqueous media under mild conditions. A whole set of enzymes is now available to build up OAT bonds in monosaccharides, COP bonds in activated monosaccharides e.g. phosphorylated sugars or nucleotide sugars, and C-O-C bonds in di- and oligosaccharides (Fig. 1). However, all these enzymatic reactions are limited by the substrate spectrum of the individual enzyme. [Pg.93]

However, nucleoside diphosphates (NDP) are still expensive substrates, which can be obtained from much more cheaper nucleoside monophosphates (NMP). In this respect we have combined the SuSy-catalyzed cleavage of sucrose with the enzymatic formation of NDPs from NMPs catalyzed by nucleoside monophosphate kinase (NMPK, EC 2.7.4.4) or myokinase (MK, EC 2.7.4.3), including in situ regeneration of ATP with pyruvate kinase (PK, EC 2.7.1.40) (Fig. 20) [272]. Testing the substrate spectrum of four different kinases disclosed that none of them accepted dTMP as substrate [272], However, dUMP was well accepted by NMPK and dUDP-activated glucose could also substitute dTDP-activated glucose as precursor for the synthesis of activated deoxysugars (see below). The excellent enzyme stabilities under synthesis... [Pg.122]

For the described approach, it is important to note that aldolases of different origin were tested and that, in contrast to L-rhamnulose-1-phosphate aldolase (RhuA), the D-fructose-1,6-biphosphate aldolase from rabbit muscle and L-fucu-lose-1-phosphate aldolase from E. coli were not active for DHAP/(R)-N- and (S)-iV-Cbz-prolinal condensation. Since RhuA accepts both, (S)-N- and (R)-N-Cbz prolinals, the chemo-enzymatic synthesis of both, hyacinthacines A and A2 isomers could be achieved. In conclusion, the origin and the particular enzyme itself... [Pg.95]

The asymmetric hydrolysis of (exo,exo)-7-oxabicyclo[2.2.1]heptane-2,3-dimethanol, diacetate ester (37) to the corresponding chiral monoacetate ester (38) (Fig. 12B) has been demonstrated with lipases [61]. Lipase PS-30 from P. cepacia was most effective in asymmetric hydrolysis to obtain the desired enantiomer of monoacetate ester. The reaction yield of 75 M% and e.e. of >99% were obtained when the reaction was conducted in a biphasic system with 10% toluene at 5 g/liter of the substrate. Lipase PS-30 was immobilized on Accurel PP and the immobilized enzyme was reused (5 cycles) without loss of enzyme activity, productivity, or e.e. of product (38). The reaction process was scaled up to 80 liters (400 g of substrate) and monoacetate ester (38) was isolated in 80 M% yield with 99.3% e.e. The product was isolated in 99.5% chemical purity. The chiral monoacetate ester (38) was oxidized to its corresponding aldehyde and subsequently hydrolyzed to give chiral lactol (33) (Fig. 12B). The chiral lactol (33) obtained by this enzymatic process was used in chemoenzymatic synthesis of thromboxane A2 antagonist (35). [Pg.156]

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See also in sourсe #XX -- [ Pg.193 ]



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