Biosynthesis assay

Compounds 111 having structural features of the dual cyclooxygenase (COX)/5-lipooxygenase (5-LO) inhibitor tepoxalin and the 5-LO inhibitor ABT-761 were prepared. Many of these hybrid compounds are potent COX and 5-LO inhibitors two compounds (111, r =McO, R = R" = R = H, R = NH2, R = Me and r = MeO, R = R = Me, R" = R = H, R = Cl) inhibited eicosanoid biosynthesis in an ex vivo assay, but neither improved on the main deficiency of tepoxalin, duration of 5-LO inhibitory activity (99BMCL979). Compounds 111 inhibit the production of arachidonic acid products associated with 5-lipoxygenase and cyclooxygenase and are useful in the treatment of inflammatory disorders (99USP5925769). 

However, more-rigorous treatment (5% acetic acid, 100°C, 17 hours) opened the imidazole ring and produced /V -cyclohexyl-a-formylaminoacetamidine (57), characterized as the crystalline picrate. Amidine 57 produced no dye in the Bratton-Marshall assay. The same behavior can be expected from AIR (46), although the product of hydrolytic ring-opening was not actually isolated. On the other hand, it was observed that a solution of AIRs (0.2 mM in 0.01-M ammonium hydroxide) prepared by biosynthesis, when stored at 4°C, did not change appreciably within a day. A decrease in the concentration of AIRs of about 30% occurred within a month. 

Metabolic disorders of urea biosynthesis, while extremely rare, illustrate four important principles (1) Defects in any of several enzymes of a metabolic pathway enzyme can result in similar clinical signs and symptoms. (2) The identification of intermediates and of ancillary products that accumulate prior to a metabolic block provides insight into the reaction that is impaired. (3) Precise diagnosis requires quantitative assay of the activity of the enzyme thought to be defective. (4) Rational therapy must be based on an understanding of the underlying biochemical reactions in normal and impaired individuals. 

A full understanding of the role of pectin in plant development requires elucidation of the mechanisms that regulate p>ectin biosynthesis (6). Our strategy for studying the biosynthesis of HGA was to 1) establish a PGA-GalAT assay that would allow detection of synthesized HGA, 2) characterize the enzyme in microsomal membranes, 3) characterize the product synthesized by the enzyme in microsomal membranes, and 4) solubilize the enzyme and characterize the solubilized enzyme and its product. 

Figure 4. DDC (A), serotonin (B), and tyrosine hydroxylase (C) immunore-activity in the posterior region of a wild-type Drosophila ventral ganglion. Tyrosine hydroxylase (TH) encodes the rate-limiting step in dopamine biosynthesis and is a marker for dopamine cells. B and C are the same CNS assayed for both serotonin and TH. M, medial dopamine neurons VL, ventrolateral serotonin neurons DL, dorsolateral dopamine neurons. Short unmarked arrows in C show vacuolated cells that do not contain DDC immunoreactivity. The immunoreactivity in these cells may represent a nonspecific cross-reactivity of the rat TH antibody. The length bar in A is 50 pM. The images are confocal projections generated on a Molecular Dynamics-2000 confocal laser scanning microscope.

Ajoene has antitumor activity, inhibits cholesterol biosynthesis, modulates membrane-dependent functions of immune cells, inhibits protein prenylation83 and is an anti-leukaemia agent for acute myeloid leukaemia.85 In antithrombotic assays, the Z isomer is more active than the E isomer.84... 

During a study of the biosynthesis of pectin substances, a sensitive micromethod for the assay of pectinesterase activity was developed111 that uses a biosynthetically prepared [14C] methyl-labelled pectin as the substrate after enzymic de-esterification, the substrate remaining is precipitated with an excess of methanol and, after centrifugation, the [14C]methanol present in the supernatant liquor is counted in a liquid scintillation counter in order to assess the pectinesterase activity. 

Recently nicotinic acid has been found to lower serum cholesterol in hypercholesteremia, and also in normal persons and rabbits (A3, F2). It was shown that the hypercholesteremia, induced by a 48-hour fast, could be completely corrected by giving the animals large doses of nicotinic acid during the fast. In contrast to nicotinic acid, nicotinamide does not lower the cholesterol level (M10). Several explanations are offered for the action of nicotinic acid (1) it inhibits cholesterol biosynthesis, (2) it interferes with coenzyme A, and (3) it involves a hitherto unknown pharmacologic effect. The renewed clinical interest in nicotinic acid induced us to look for a more specific and sensitive assay for nicotinic acid (B7, M8). 

Cvejic JH, Rohmer M (2000) C02 as main carbon source for isoprenoid biosynthesis via the mevalonate-independent methylerythritol 4-phosphate route in the marine diatoms Phaeodactylum tricomutum and Nitzschia ovalis. Phytochemistry 53 21-28 de Nys R, Steinberg PD, Willemsen P, Dworjanyn SA, Gabelish CL, King RJ (1995) Broad-spectrum effects of secondary metabolites from the red alga Delisea pulchra in antifouling assays. Biofouling 8 259-271... 

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