Nicotinic acid, oxidation

Ensign JC, SC Rittenberg (1964) The pathway of nicotinic acid oxidation by a Bacillus species. J Biol Chem 239 2285-2291. 

Niacin Nicotinic acid, Oxidation-reduction Pellagra Fluorometric, HPLC,... 

Niacin (nicotinic acid) Oxidation-reduction reactions, found in many metabolic processes Sections 17.3,19.3, 20.2... 

Nicotinic acid is prepared in good tdeld by the oxidation of p picollne with potassium permanganate ... 

Pyridine A Oxides. Analgesic and antiinflammatory dmgs niflumic acid [4394-00-7] (68) and pranoprofen [52549-17-4] (69) are manufactured from nicotinic acid N-oxide [2398-81 -4]. The antiulcer dmg omeprazole (66) is produced from 2,3,5-trimethylpyridine N-oxide [74409-42-0]. Zinc pyrithione, the zinc salt of pyrithione (45), is a fungicide derived from 2-chloropyridine N-oxide (45). 

Oxidation. The synthesis of quinolinic acid and its subsequent decarboxylation to nicotinic acid [59-67-6] (7) has been accompHshed direcdy in 79% yield using a nitric—sulfuric acid mixture above 220°C (25). A wide variety of oxidants have been used in the preparation of quinoline N-oxide. This substrate has proved to be useful in the preparation of 2-chloroquinoline [612-62-4] and 4-chloroquinoline [611 -35-8] using sulfuryl chloride (26). The oxidized nitrogen is readily reduced with DMSO (27) (see Amine oxides). 

Pyridine carboxamide [98-92-0] (nicotinamide) (1) and 3-pyridine carboxylic acid [59-67-6] (nicotinic acid) (2) have a rich history and their early significance stems not from their importance as a vitamin but rather as products derived from the oxidation of nicotine. In 1867, Huber prepared nicotinic acid from the potassium dichromate oxidation of nicotine. Many years later, Engler prepared nicotinamide. Workers at the turn of the twentieth century isolated nicotinic acid from several natural sources. In 1894, Su2uki isolated nicotinic acid from rice bran, and in 1912 Funk isolated the same substance from yeast (1). 

The alkyl pyridines (6) and (7) can be transformed either to nicotinic acid or nicotinonitrile. In the case of nicotinic acid, these transformations can occur by either chemical or biological means. From an industrial standpoint, the majority of nicotinic acid is produced by the nitric acid oxidation of 2-meth5i-5-ethylpyridine. Although not of industrial significance, the air oxidation has also been reported. Isocinchomeronic acid (10) (Fig. 2) is formed as an intermediate. 

Phenothiazines, benzo-l,2,4-thiadiazine 1,1-oxides, fluoroquinolones, nicotinic acid, and nitrofuran derivative as potentially dangerous photosensitizers 98MI11. 

Pyridine 210 is oxidized by 20% nitric acid at the acetyl group to 2-methyl-5-pyridinecarboxylic acid, while its ozonation gives cinchomeronic acid [pyridine-2,5-dicarboxylic acid (215)] (75DIS) which is decarboxylated (200°C, 2 h) to nicotinic acid 216 in 97% yield (75DIS). 

Methylation of nicotine to the pyridinium iodide with methyl iodide, followed by its conversion to the hydroxide with silver oxide in water, oxidation with potassium permanganate to the A -methyl nicotinic acid hydroxide and subsequent deprotonation with silver oxide yielded Trigollenine as colorless needles (1897CB2117). In a later publication, the formation of nicotinic acid from nicotine was described. Esterification followed by aminolysis and methylation yielded the A -methylnicotinamide... 

Replacement of one of the benzene rings by pyridine in the fenamic acid-type analgesics leads to an agent with full pharmacologic activity. Treatment of the N-oxide of nicotinic acid with phosphorus trichloride followed by hydrolysis of the acid... 

In two publications [36, 37] and a subsequent review [38], a closely related alternative procedure for conversion of pyridine-N-oxides into cyanopyridines was reported in 1983. This used a combination of the mild Lewis acid Me2NCOCl and trimethylsilyl cyanide 18 for the cyanation of pyridine N-oxides such as 860, affording, in CH2CI2, via 932 and 933, 2-cyanopyridine 862 in 94% yield and apparently no 4-cyanopyridine 864 [36-38] (Scheme 7.13). With 3-substituted pyridine N-oxides such as methyl nicotinate N-oxide a mixture of 40% methyl 2-cyanonico-tinate and 60% methyl 6-cyanonicotinate is obtained. 

Niacin Nicotinic acid, nicotinamide Coenzyme in oxidation and reduction reactions, functional part of NAD and NADP Pellagra—photosensitive dermatitis, depressive psychosis... 

Niacin was discovered as a nutrient during studies of pellagra. It is not strictly a vitamin since it can be synthesized in the body from the essential amino acid tryptophan. Two compounds, nicotinic acid and nicotinamide, have the biologic activity of niacin its metabolic function is as the nicotinamide ring of the coenzymes NAD and NADP in oxidation-reduction reactions (Figure 45-11). About 60 mg of tryptophan is equivalent to 1 mg of dietary niacin. The niacin content of foods is expressed as mg niacin equivalents = mg preformed niacin + 1/60 X mg tryptophan. Because most of the niacin in cereals is biologically unavailable, this is discounted. 

Behrman EJ, RY Stanier (1957a) The bacterial oxidation of nicotinic acid. J Biol Chem 228 923-945. 

Gauthier JJ, SC Rittenberg (1971) The metabolism of nicotinic acid II. 2,5-dihydroxypyridine oxidation, product formation, and oxygen 18 incorporation. J Biol Chem 246 3743-3748. 

Hirschberg R, JC Ensign (1971a) Oxidation of nicotinic acid by a Bacillus species source of oxygen atoms for hydroxylation of nicotinic acid and 6-hydroxynicotinic acid. J Bacterial 108 757-759. 

Nicotinic acid and related meta-carboxylic acids display the remarkable characteristic that coordination of the pendant carboxylic acid moieties to the Pt surface is controlled by electrode potential. Oxidative coordination of the carboxylate pendant occurs at positive electrode potentials, resulting in disappearance of the 0-H vibration and loss of surface acidity as judged by absence of reactivity towards KOH. Carboxylate in the 4-position of pyridine (as in INA) is virtually independent of electrode potential, whereas strong coordination of ortho-carboxylates to the Pt surface is present at most electrode potentials. Adsorbed pyridine carboxylic acids are stable in vacuum when returned to solution the adsorbed material displays the same chemical and electrochemical properties as prior to evacuation. 

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