Thioxo-, reactions

Pyrido[2,3-d]pyrimidine, 8-ribityl-as inhibitor of riboflavin synthesis, 3, 260 Pyrido[2,3-(i]pyrimidine, thioxo-reactions, 3, 211... 

A similar utilization of two heteroatoms is illustrated by the reaction of the ethylenedithiol (120) with formic acid in the presence of perchloric acid. 4,5-Diphenyl-l,3-dithiolylium perchlorate (121) was formed in 45% yield (69MI40300). Introduction of a 2-oxo or 2-thioxo substituent as in (123 X = 0, S) is illustrated by the reaction of the disodium salt (122) with phosgene and thiophosgene, respectively (76S489). 

Purine, 2-chloro-8-thioxo-7,8-dihydro-synthesis, 5, 578 Purine, 6-cyano-reactions, 5, 548 synthesis, 5, 593 Purine, 8-cyano-reactions, 5, 548 Purine, 8-deoxyribosyl-synthesis, 5, 585 Purine, 2,8-dialkyl-synthesis, 5, 568 Purine, 2,6-diamino-biological activity, 5, 604 reactions... 

Purine, 9- -D-ribofuranosyl-6-selenoxo- 1,6-dihydro-synthesis, 5, 597 Purine, 6-thiocyanato-acylation, 5, 559 Purine, 2-thioxo-synthesis, 5, 589 Purine, 8-thioxo-iodination, 5, 559 synthesis, 5, 577, 597 Purine, 2-thioxo-2,3-dihydro-synthesis, 5, 572 Purine, 6-thioxo-1,6-dihydro-acylation, 5, 559 dethiation, 5, 558 halogenation, 5, 559 hydrolysis, 5, 560 methylation, 5, 535 oxidation, 5, 560 synthesis, 5, 572, 596 Purine, 8-thioxo-7,8-dihydro-acylation, 5, 559 Purine, 2,6,8-trichloro-alkylation, 5, 530 amination, 5, 562 reactions, 5, 561, 562 with hydriodic acid, 5, 563 with pyridine, 5, 562 synthesis, 5, 598 Purine, 2,6,8-trichloro-7-methyl-synthesis, 5, 557 Purine, 8-trifluoromethyl-synthesis, 5, 574... 

Purines, N-alkyl-N-phenyl-synthesis, 5, 576 Purines, alkylthio-hydrolysis, 5, 560 Mannich reaction, 5, 536 Michael addition reactions, 5, 536 Purines, S-alkylthio-hydrolysis, 5, 560 Purines, amino-alkylation, 5, 530, 551 IR spectra, 5, 518 reactions, 5, 551-553 with diazonium ions, 5, 538 reduction, 5, 541 UV spectra, 5, 517 Purines, N-amino-synthesis, 5, 595 Purines, aminohydroxy-hydrogenation, 5, 555 reactions, 5, 555 Purines, aminooxo-reactions, 5, 557 thiation, 5, 557 Purines, bromo-synthesis, 5, 557 Purines, chloro-synthesis, 5, 573 Purines, cyano-reactions, 5, 550 Purines, dialkoxy-rearrangement, 5, 558 Purines, diazoreactions, 5, 96 Purines, dioxo-alkylation, 5, 532 Purines, N-glycosyl-, 5, 536 Purines, halo-N-alkylation, 5, 529 hydrogenolysis, 5, 562 reactions, 5, 561-562, 564 with alkoxides, 5, 563 synthesis, 5, 556 Purines, hydrazino-reactions, 5, 553 Purines, hydroxyamino-reactions, 5, 556 Purines, 8-lithiotrimethylsilyl-nucleosides alkylation, 5, 537 Purines, N-methyl-magnetic circular dichroism, 5, 523 Purines, methylthio-bromination, 5, 559 Purines, nitro-reactions, 5, 550, 551 Purines, oxo-alkylation, 5, 532 amination, 5, 557 dipole moments, 5, 522 H NMR, 5, 512 pJfa, 5, 524 reactions, 5, 556-557 with diazonium ions, 5, 538 reduction, 5, 541 thiation, 5, 557 Purines, oxohydro-IR spectra, 5, 518 Purines, selenoxo-synthesis, 5, 597 Purines, thio-acylation, 5, 559 alkylation, 5, 559 Purines, thioxo-acetylation, 5, 559... 

Thieno[2,3-d]pyrimidine, 2-(2-thienyl)-electrophilic reactions, 4, 1020 nucleophilic reactions, 4, 1020 Thieno[2,3-d]pyrimidine, 4-thioxo-synthesis, 4, 1017... 

Triazin-5-One, 3-thioxo-alkylation, 3, 408 desulfurization, 3, 416 mass spectra, 3, 397 metal complexes, 3, 456 methylation, 3, 408 reactions... 

In this connection it is important to mention the finding that the thioxo derivatives (52) can be converted in several ways to the 3,5-dioxo derivatives. By alkylation with methyl iodide in alkaline solution, methylmercapto derivatives (53) are produced which are readily hydrolyzed to dioxo derivatives. A similar course is followed in the reaction with ethyl chloroacetate. Finally, oxidation with hypo-... 

In a further synthesis, Gut ° used the cyclization of the thiosemi-carbazone of glyoxylic acid (56) the 2-thioxo-5-oxo-2,3,4,6-tetra-hydro-l,2,4-triazine (57) formed was converted to 6-azauracil by applying aqueous solution of chloroacetic acid. (This reaction will be discussed later, e.g.. Section II,B,4,b.) The same procedure was used... 

In this connection the course of the reaction of 3-thioxo derivative (52) with chloroacetic acid was studied in detail, the reaction being important for the transformation to dioxotriazine derivatives. In this reaction, the carboxymethylmercapto derivatives (94) must be expected as intermediates. The ethyl esters of these compounds (93) (R — CHaCeHs, R = CeHs) Were isolated by Cattelain after reaction with ethyl chloroacetate. " When the reaction is performed in the usual preparative way using 10% aqueous solution of chloroacetic acid, it requires 3-5 hr of boiling. In an alkaline solution (with a... 

Alkylthio, arylthio, and thioxo. The thioxo group in pyrimidine-2,4-dithione can be displaced by amines, ammonia, and amine acetates, and this amination is specific for the 4-position in pyrimidines and quinazolines. 2-Substitution fails even when a 5-substituent (cf. 134) sterically prevents reaction of a secondary amine at the 4-position. Acid hydrolysis of pyrimidine-2,4-dithione is selective at the 4-position. 2-Amination of 2-thiobarbituric acid and its /S-methyl derivative has been reported. Under more basic conditions, anionization of thioxo compounds decreases the reactivity 2-thiouracil is less reactive toward hot alkali than is the iS-methyl analog. Hydrazine has been reported to replace (95°, 6 hr, 65% 3deld) the 2-thioxo group in 5-hexyl-6-methyl-2-thiouracil. Ortho and para mercapto- or thio- azines are actually in the thione form. ... 

The 0X0 group facilitates reaction relative to H, CH3, or NH2 substituents on pyrimidines in the displacement of mercapto, arylthio, or amino groups by amines. The 2-thioxo group is reactive toward... 

Triazanaphthalene (449) is the most unstable of the pyrido-pyrimidines to ring-degradation at pH 2 or pH 7.7 The 4-oxo derivative was converted into the 4-thioxo compound via nucleophilic displacement of the acyloxy intermediate formed with phosphorus pentasulfide. The 4-carboxymethylthio-pyridopyrimidine underwent some substitution by hydroxide ion but primarily gave the ring-opening reaction, which is facilitated by resonance activation of the 2-position by the 6-aza moiety. 

OKO-l,3,7-triazanaphthalene (450) forms acyloxy derivatives in situ with phosphorus oxychloride and pentasulfide which undergo nucleophilic displacement with chloride ion and with a complex sulfide ion, respectively, to form the 4-chloro and 4-thioxo derivatives. The 4-carboxymethylthio compoimd failed to undergo the ring-opening reaction (see below) characteristic of more activated azino- and diazino-pyrimidines, but it did yield about 10% of the 4-0X0 displacement product. 

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