Acidic metabolites

Danjiami acaride and metabolites Acid-base reflux petroleum ether extraction Derivatisation with heptafluorobu-tyranilide, then gas chromatography with mass spectrophotometric detection [532]... 

Most of the mobile phases employed in the analysis of quinidine in biological fluids are acidic. Drayer et al. 1 6 and Leroyer et al. 7 separated quinidine and its metabolites by using acetonitrile-acetic acid-water in combination with an octadecyl column (Fig. 5.2). Barrow et al.47 used a similar system, but preferred a gradient elution to separate quinine and quinidine from their respective metabolites. Acidic buffers have... 

Thompson CD, Barthen MT, Hopper DW, et al. Quantification in patient urine samples of felbamate and three metabolites acid carbamate and two mercapturic acids. Epilepsia 1999 40 769-776. 

These fragments can be attacked by enzymes to produce lower molecular weight metabolites. Acid fragments that are produced during degradation of the polymer backbone have shown to cause local tissue inflammation (60). 

Noutnl Indole derivati ves, indole alkaloids Neutral Indole derivatives, urine metabolites Acid auxinn... 

The metabolite of 2-amino-4-phenylthiazole (used as an anaesthetic for fish) was identified (223) as 2-amino-4-phenylthiazole 2-N, -d-glucopyranosiduronic acid (71) (Scheme 50). The formation of this compound probably involves the reaction of the exocyclic nitrogen on the Open-chain form of the acid. The isolation of this metabolite is part of a very Systematic study by Japanese researchers related to the anaesthetic... 

Perfused rat liver rapidly converts 4-m thyI-5-/3-chloroethy]thiazole to 2-hydroxy -4-methylthiazol-5-y) acetic acid (40. 41). Finally, tw o new human metabolites of chlormethiazole have been isolated and identified by mass spectra as 2-hydroxy-4-methyl-5-/S-chloroethylthiazole and 2-hydroxy-4-methyl-5-ethylthiazole (42). 

Factors controlling calcium homeostasis are calcitonin, parathyroid hormone(PTH), and a vitamin D metabolite. Calcitonin, a polypeptide of 32 amino acid residues, mol wt - SGOO, is synthesized by the thyroid gland. Release is stimulated by small increases in blood Ca " concentration. The sites of action of calcitonin are the bones and kidneys. Calcitonin increases bone calcification, thereby inhibiting resorption. In the kidney, it inhibits Ca " reabsorption and increases Ca " excretion in urine. Calcitonin operates via a cyclic adenosine monophosphate (cAMP) mechanism. 

Parathyroid hormone, a polypeptide of 83 amino acid residues, mol wt 9500, is produced by the parathyroid glands. Release of PTH is activated by a decrease of blood Ca " to below normal levels. PTH increases blood Ca " concentration by increasing resorption of bone, renal reabsorption of calcium, and absorption of calcium from the intestine. A cAMP mechanism is also involved in the action of PTH. Parathyroid hormone induces formation of 1-hydroxylase in the kidney, requited in formation of the active metabolite of vitamin D (see Vitamins, vitamin d). 

Neither the mechanism by which benzene damages bone marrow nor its role in the leukemia process are well understood. It is generally beheved that the toxic factor(s) is a metaboHte of benzene (107). Benzene is oxidized in the fiver to phenol [108-95-2] as the primary metabolite with hydroquinone [123-31-9] catechol [120-80-9] muconic acid [505-70-4] and 1,2,4-trihydroxybenzene [533-73-3] as significant secondary metabolites (108). Although the identity of the actual toxic metabolite or combination of metabolites responsible for the hematological abnormalities is not known, evidence suggests that benzene oxide, hydroquinone, benzoquinone, or muconic acid derivatives are possibly the ultimate carcinogenic species (96,103,107—112). 

EoUowing po administration moricizine is completely absorbed from the GI tract. The dmg undergoes considerable first-pass hepatic metabolism so that only 30—40% of the dose is bioavailable. Moricizine is extensively (95%) bound to plasma protein, mainly albumin and a -acid glycoprotein. The time to peak plasma concentrations is 0.42—3.90 h. Therapeutic concentrations are 0.06—3.00 ]l/niL. Using radiolabeled moricizine, more than 30 metabolites have been noted but only 12 have been identified. Eight appear in urine. The sulfoxide metabolite is equipotent to the parent compound as an antiarrhythmic. Elimination half-life is 2—6 h for the unchanged dmg and known metabolites, and 84 h for total radioactivity of the labeled dmg (1,2). 

Citric acid 77-92-9] (2-hydroxy-l,2,3-propanetricarboxylic acid), is a natural component and common metabolite of plants and animals. It is tbe most versatile and widely used organic acid in foods, beverages, and pbarmaceuticals. 

The anticonvulsant primidone (1035) resembles phenobarbital but lacks the 2-oxo substituent. It was introduced in 1952 and has remained a valuable drug for controlling grand mal and psychomotor epilepsy. As might be expected, primidone is metabolized to yield phenobarbital (1034 X = 0) and C-ethyl-C-phenylmalondiamide (1036), both of which have marked anticonvulsant properties however, primidone does have intrinsic activity and an appropriate mixture of its metabolites has only a fraction of its activity (73MI21303). Primidone may be made in several ways, of which desulfurization by Raney nickel of the 2-thiobarbiturate (1034 X = S) or treatment of the diamide (1036) with formic acid (at 190 °C) seem to be the most satisfactory (54JCS3263). 

In man, the metabolic pathways of mepirizole were distinct from those in experimental animals, since hydroxylation on each of the aromatic rings did not occur in man. Compound (752) was obtained by oxidation of the 3-methyl group to the carboxylic acid (a similar process occurs with 5-methylpyrazole-3-carboxylic acid, an active metabolite of 3,5-dimethylpyrazole). However, the carboxylic acid metabolite of mepirizole had no analgesic activity and did not decrease blood glucose. 

Acetic acid, 3-ethoxycarbonyl-l-methyl-2-pyrrolyl-ethyl ester reduction, 4, 287 Acetic acid, 9-hydroxyethoxy-as metabolite of dioxane, 1, 245... 

Butyric acid, 2-amino-4-(4-carboxythiazol-2-yl)-occurrence, 6, 327 Butyric acid, 4-(indol-3-yl)-as plant growth regulator, 1, 191 Butyric acid, y-(3-pyridyl)-y-methylamino-as metabolite... 

African sleeping sickness and, 1, 180 as chemotherapeutic agent, 1, i80 veterinary use, 1, 208 Furfuracryluric acid as metabolite of furfural, 1, 245... 

Low-molecular-weight products, generally secondary metabolites such as alcohols, carboxyhc and an iino acids, antibiotics, and vitamins, can be recovered using many of the standard operations such as liquid-hquid extraction, adsorption and ion-exchange, described elsewhere in this handbook. Proteins require special attention, however, as they are sufficiently more complex, their function depending on the integrity of a delicate three-dimensional tertiaiy structure that can be disrupted if the protein is not handled correctly. For this reason, this section focuses primarily on protein separations. Cell separations, as a necessary part of the downstrean i processing sequence, are also covered. 

The kynurenine pathway metabolites are kynurenine, kynurenic acid, xahthurenic acid, 3-hydroxykynurenine, anthranilic acid and quinolinic acid. The more important are kynurenine (Kyn) and 3-hydroxykynurenine (30HKyn) (Fig 1). 

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