Pyrimidines applications

X-ray diffraction, 6, 618 Isoxazoio[5,4-d]pyrimidine applications, 6, 634 synthesis, 6, 54 from isoxazoies, 6, 627 from pyrimidines, 6, 627... 

Pyrimido[4,5-J]pyrimidine-5,7-diones synthesis, 3, 363 Pyrimidopyri mi dines synthesis, 4, 507 Pyrimido[ 1,2-a]pyrimidines reactivity, 3, 348 structure, 3, 337-338 synthesis, 3, 360 Pyrimido[ 1,6-fl]pyrimidines reactivity, 3, 349 structure, 3, 338 synthesis, 3, 362 Pyrimido[l, 6-c]pyrimidines reactivity, 3, 349 structure, 3, 338 synthesis, 3, 362 Pyrimido[4,5-d]pyrimidines applications, 3, 368 cleavage, 3, 350 reactions... 

Primary synthesis has limited application in making pyrimidine-carboxylic acids or even their esters. However, some pyrimidine-4(and 5)-carboxylic acids can be effectively so made. For example, bromomucic acid (785) reacts as an aidehydo ketone with S-methyl-thiourea to give 5-bromo-2-methylthiopyrimidine-4-carboxylic acid (786) directly (53JCS3129) while the Whitehead synthesis (Section 2.13.3.1.2<7) can give, for instance, 3-methylcytosine-5-carboxylic acid (787) (55MI21300). 

Isothiazolo[3,4-d]pyridin-4(5H)-one, 3,6-dialkyl-applications, 6, 644 2H-Isothiazolo[2,3-a]pyrimidine synthesis, 6, 640 Isothiazolo[4,3-d]pyrimidine synthesis... 

The same amino compounds also underwent reactions with a series of 3-cyano-4-imino- and 3-cyano-4-oxo-piperidines to yield 4-amino-5,0,7,8-tetrahydropyrido[4,3-d]pyrimidines. . A tetra-hydropyTido[4,3-prepared from 4-amino-l-henzyl-3-cyano-d -piperidine (134) hy a simple one-step preparation. This method is of general application for the preparation of fused pyrimidines and previous papers in this field are listed by Taylor. ... 

The methods outlined, of course, are readily applicable to a wide variety of substituted heterocycles like the carboxyl, hydroxy and mercapto derivatives of pyridines, pyridine 1-oxides, pyrroles, etc. The application to amines and to diaza compounds such as pyrimidine, where the two centers are basic, is obvious except that now 23 takes the role of the neutral compound, 21 and 22 the roles of the tautomeric first conjugate bases, and 20 the role of the second conjugate base. Extensions to molecules with more than two acidic or basic centers, such as aminonicotinic acid, pyrimidinecarboxylic acids, etc., are obvious although they tend to become algebraically cumbersome, involving (for three centers) three measurable Kg s, four Ay s, and fifteen ideal dissociation constants (A ), a total of twenty-two constants of which seven are independent. 

This sequence is equally applicable to keto esters. Thus, condensation of guanidine with ethyl acetoacetate gives the pyrimidone, 134. Elaboration as above gives the pyrimidine, IJ5 acylation with the sulfonyl chloride (88) followed by hydrolysis yields sulfamerazine (107). Reaction of guanidine with beta dicarbonyl compounds gives the pyrimidine directly. Condensation of the base with acetonyl acetone affords the starting amine for sulfadimidine (108). ... 

This series in heterocychc chemistry is being introduced to collectively make available critically and comprehensively reviewed hterature scattered in various journals as papers and review articles. All sorts of heterocyclic compounds originating from synthesis, natural products, marine products, insects, etc. will be covered. Several heterocyclic compounds play a significant role in maintaining life. Blood constituents hemoglobin and purines, as well as pyrimidines, are constituents of nucleic acid (DNA and RNA). Several amino acids, carbohydrates, vitamins, alkaloids, antibiotics, etc. are also heterocyclic compounds that are essential for life. Heterocyclic compounds are widely used in clinical practice as drugs, but all applications of heterocyclic medicines can not be discussed in detail. In addition to such applications, heterocyclic compounds also find several applications in the plastics industry, in photography as sensitizers and developers, and the in dye industry as dyes, etc. 

Propiolaldehyde diethyl acetal has found numerous synthetic applications in the literature which may be briefly summarized. The compound has been utilized in the synthesis of unsaturated and polyunsaturated acetals and aldehydes by alkylation of metal-lated derivatives, " by Cadiot-Chodkiewicz coupling with halo acetylenes, " and by reaction with organocuprates. Syntheses of heterocyclic compounds including pyrazoles, isoxazoles, triazoles, and pyrimidines have employed this three-carbon building block. Propiolaldehyde diethyl acetal has also been put to use in the synthesis of such natural products as polyacetylenes " and steroids. ... 

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