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Succinyl succinate

An important use of dialkyl succinates is in the preparation of dialkyl succinyl succinates (35,53—56), which are intermediates in the manufacture of quinacridone pigments. The reaction is carried out in the presence of alkaU metal alkoxides (eq. 2). [Pg.535]

Lieberman, H., Kirchhoff, H., Gliksman, W., Loewy, L., Gruhn, A., Hammerich, T. H., Anitschkoff, N. and Schulze, B. (1935). Transformation products of succinyl-succinic esters. VI. Formation of quinacridones from p-diarylaminoterephthalic acids. Annalen, 518, 245-59. [259]... [Pg.362]

Succinic anhydride [108-30-5] (3,4-dihydro-2,5-furandione butanedioic anhydride tetrahydro-2,5-dioxofuran 2,5-diketotetrahydrofuran succinyl oxide), C H O, was first obtained by dehydration of succinic acid. In the 1990s anhydride is produced by hydrogenation of maleic anhydride and the acid by hydration of the anhydride, by hydrogenation of aqueous solutions of maleic acid, or as a by-product in the manufacture of adipic acid (qv) (see Maleic ANHYDRIDE, MALEIC ACID, AND FUMARIC ACID). [Pg.534]

Succinyl chloride [543-20-4] is obtained from phosphorous pentachloride and succinic acid, from thionyl chloride and succinic acid or anhydride (91,92), or from phosgene and succinic anhydride (93). [Pg.535]

Succinic acid reacts with urea in aqeous solution to give a 2 1 compound having mp 141°C (116,117), which has low solubiUty in water. A method for the recovery of succinic acid from the wastes from adipic acid manufacture is based on this reaction (118,119). The monoamide succinamic acid [638-32-4] NH2COCH2CH2COOH, is obtained from ammonia and the anhydride or by partial hydrolysis of succinknide. The diamide succinamide [110-14-3], (CH2C0NH2)2, nip 268—270°C, is obtained from succinyl chloride and ammonia or by partial hydrolysis of succinonitrile. Heating succinknide with a primary amine gives A/-alkylsucckiknides (eq. 9). [Pg.536]

Animals caimot synthesize the naphthoquinone ring of vitamin K, but necessary quantities are obtained by ingestion and from manufacture by intestinal flora. In plants and bacteria, the desired naphthoquinone ring is synthesized from 2-oxoglutaric acid (12) and shikimic acid (13) (71,72). Chorismic acid (14) reacts with a putative succinic semialdehyde TPP anion to form o-succinyl benzoic acid (73,74). In a second step, ortho-succmY benzoic acid is converted to the key intermediate, l,4-dihydroxy-2-naphthoic acid. Prenylation with phytyl pyrophosphate is followed by decarboxylation and methylation to complete the biosynthesis (75). [Pg.155]

Lsocitrate Dehydrogenase—The First Oxidadon in die Cycle m-Ketoglutarate Dehydrogenase—A Second Decarboxylation Succinyl-CoA Synthetase—A Substrate-Level Phosphoryladon Succinate Dehydrogenase—An Oxidadon Involving FAD... [Pg.639]

The mechanism of succinyl-CoA synthetase is postulated to involve displacement of CoA by phosphate, forming succinyl phosphate at the active site, followed by transfer of the phosphoryl group to an active-site histidine (making a phosphohistidine intermediate) and release of succinate. The phosphoryl moiety is then transferred to GDP to form GTP (Figure 20.13). This sequence of steps preserves the energy of the thioester bond of succinyl-CoA in a series of high-energy intermediates that lead to a molecule of ATP ... [Pg.653]

Succinyl-CoA derived from propionyl-CoA can enter the TCA cycle. Oxidation of succinate to oxaloacetate provides a substrate for glucose synthesis. Thus, although the acetate units produced in /3-oxidation cannot be utilized in glu-coneogenesis by animals, the occasional propionate produced from oxidation of odd-carbon fatty acids can be used for sugar synthesis. Alternatively, succinate introduced to the TCA cycle from odd-carbon fatty acid oxidation may be oxidized to COg. However, all of the 4-carbon intermediates in the TCA cycle are regenerated in the cycle and thus should be viewed as catalytic species. Net consumption of succinyl-CoA thus does not occur directly in the TCA cycle. Rather, the succinyl-CoA generated from /3-oxidation of odd-carbon fatty acids must be converted to pyruvate and then to acetyl-CoA (which is completely oxidized in the TCA cycle). To follow this latter route, succinyl-CoA entering the TCA cycle must be first converted to malate in the usual way, and then transported from the mitochondrial matrix to the cytosol, where it is oxida-... [Pg.793]

BerL Ber., abbrev. (Berliner Berichte) Berickte der deutscken chemiachen Gesellscka/t. Berliner-blau, n. Berlin blue, Prussian blue, -blaus ure, /. hydrocyanic acid, -braun, n. Prussian brown, -griin, n. Prussian green, -rot, n. Berlin red (a red lake color), -saure,/. prussic acid, -weiss, n. a kind of white lead. Bernstein, m. amber. — schwarzer —, jet. Bernstein-, amber succinic, succinyl, succino-. -alaun, m. aluminous amber, -aldehyd, n. succinaldehyde. bemateinartig, a. amber-like. [Pg.66]

In peripheral tissues acetoacetate exported by the liver reacts with succinyl-CoA formed in the citrate cycle to give acetoacetyl-CoA and succinate catalyzed by a specific CoA transferase. [Pg.116]

Succinyl-CoA is converted to succinate by the enzyme succinate thiokinase (succinyl-CoA synthetase). This is the only example in the citric acid cycle of substrate-level phosphorylation. Tissues in which glu-coneogenesis occurs (the hver and kidney) contain two isoenzymes of succinate thiokinase, one specific for GDP and the other for ADP. The GTP formed is used for the decarboxylation of oxaloacetate to phos-phoenolpymvate in gluconeogenesis and provides a regulatory hnk between citric acid cycle activity and the withdrawal of oxaloacetate for gluconeogenesis. Nongluconeogenic tissues have only the isoenzyme that uses ADP. [Pg.131]

Figure 16-2. The citric acid cycle the major catabolic pathway for acetyl-CoA in aerobic organisms. Acetyl-CoA, the product of carbohydrate, protein, and lipid catabolism, is taken into the cycle, together with HjO, and oxidized to CO2 with the release of reducing equivalents (2H). Subsequent oxidation of 2H in the respiratory chain leads to coupled phosphorylation of ADP to ATP. For one turn of the cycle, 11 are generated via oxidative phosphorylation and one arises at substrate level from the conversion of succinyl-CoA to succinate. Figure 16-2. The citric acid cycle the major catabolic pathway for acetyl-CoA in aerobic organisms. Acetyl-CoA, the product of carbohydrate, protein, and lipid catabolism, is taken into the cycle, together with HjO, and oxidized to CO2 with the release of reducing equivalents (2H). Subsequent oxidation of 2H in the respiratory chain leads to coupled phosphorylation of ADP to ATP. For one turn of the cycle, 11 are generated via oxidative phosphorylation and one arises at substrate level from the conversion of succinyl-CoA to succinate.
Succinic anhydride also is a convenient extender for creating spacer arms on chromatography supports. Supports derivatized with amine-terminal spacers may be succinylated to totally block the amine functionalities and form terminal carboxylic acid linkers for coupling amine-containing affinity ligands (Cuatrecasas, 1970). [Pg.104]

Figure. 25.3 Succinimidyl succinate-mPEG may be used to modify amine-containing molecules to form amide bond derivatives. The ester bond of the succinylated mPEG, however, is subject to hydrolysis. Figure. 25.3 Succinimidyl succinate-mPEG may be used to modify amine-containing molecules to form amide bond derivatives. The ester bond of the succinylated mPEG, however, is subject to hydrolysis.
As we follow the label from citrate to succinyl-CoA, there are no problems. But at succinate, it all seems to fall apart. [Pg.252]

Succinyl CoA synthetase (succinate thiokinase) catalyzes a substrate-level phosphorylation of GDP to GTP. [Pg.179]

See other pages where Succinyl succinate is mentioned: [Pg.227]    [Pg.1276]    [Pg.227]    [Pg.1276]    [Pg.301]    [Pg.686]    [Pg.652]    [Pg.132]    [Pg.753]    [Pg.835]    [Pg.1157]    [Pg.359]    [Pg.51]    [Pg.2442]    [Pg.94]    [Pg.105]    [Pg.307]    [Pg.103]    [Pg.364]    [Pg.941]    [Pg.292]    [Pg.545]    [Pg.549]    [Pg.92]    [Pg.378]    [Pg.371]    [Pg.47]    [Pg.93]   
See also in sourсe #XX -- [ Pg.227 ]



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