2- pyrroles pyrimidine

Reductive cleavage of 5-silyl-, 3-, 4-, and 5-silylmethylisoxazoles 1 gave silyl (3-enaminones 2, useful synthons in the regioselective synthesis of silyl- and silylmethylpyrazoles 3, as well as pyrrole-, pyrimidine-, and pyridine derivatives <06T611>. 

The most important new folate analog, MTA or pemetrexed (aumta), is a pyrrole-pyrimidine folate analog. It is avidly transported into cells via the reduced folate carrier, but also may gain... 

Furo[2,3-amino-synthesis, 4, 986 Furo[3,4-d]pyrimidinedione synthesis, 4, 987 Furopyrimidines, 4, 986 Furo[2,3-d]pyrimidines synthesis, 4, 986 Furo[3,2-d]pyrimidines synthesis, 4, 987 Furo[3,2- 6]pyrone synthesis, 4, 994 Furo[3,2-c]pyrone synthesis, 4, 993 Furo[3,2-6]pyrrole, hexahydro-biological activity, 6, 1024 1 H-Furo[3,4-6]pyrrole-2,3-dione, 4,6a-diphenyl-6-(phenylimino)-6,6a-dihydro-synthesis, 6, 1004 Furopyrroles... 

Thieno[2,3-d ]pyrimidin-4(3 H) -one, 3-methyl-synthesis, 4, 1017 Thieno[2,3-d ]pyrimidin-4-ones synthesis, 4, 1017, 1018, 1022 Thieno[2,3-6]pyrrole, 5-aryl-synthesis, 6, 1009 Thieno[2,3-6]pyrrole, N-benzyl- H NMR, 4, 1042 UV spectra, 4, 1044 Thieno[2,3-c]pyrrole, N-ethyl-UV spectra, 4, 1044 Thieno[3,2-6]pyrrole, 5-aryl-synthesis, 6, 1009 Thieno[3,2-6]pyrrole, N-benzyl- H NMR, 4, 1041, 1042 lithiation, 4, 1051 UV spectra, 4, 1044 Thieno[3,2-6]pyrrole, 2,3-dihydro-desulfurization, 6, 984 oxidation, 6, 981... 

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. 

Pteridine, pyrimidine, pyrrole, and imidazole derivatives as natural compounds of marine origin influencing larval settlements and metamorphosis of marine sessile organisms 99YZ457. 

First we consider diacetylene transformations leading to fundamental heterocycles (pyrroles, thiophene, selenophene, tellurophenes, pyrazoles, isoxazoles, pyridines, pyrimidines). Then cyclization reactions involving 1-heterobut-l-en-3-ynes, 4-heterobut-3-en-2-ones, and 4-heterobut-3-yn-2-ones (91UK103 92KGS867 00UK642) as diacetylene equivalents are discussed. 

At present, it is evident that diaeetylene ean be used for the ereation of profitable pilot-seale faeilities to produee simple and funetionalized thiophenes, pyrroles, pyrazoles, pyrimidines, pyridines, and other heteroeyeles, as well as vitamins A and PP, geraniole, phytole derivatives, and many other high-prieed speeialty ehemieals. 

Brown has also predicted, from localization energy calculations, that pyrrole and glyoxaline should react with radicals mainly at the 2-position, whereas pyrazole should be most reactive at the 3-position. Browm and Heffernan s calculation that the orientation in pyrimidine substitution should be 4 > 2 > 5 is in agreement with the results from the p-nitrophenylation of pyrimidine. ... 

Note that nitrogen atoms have different roles depending on the structure of the molecule. The nitrogen atoms in pyridine and pyrimidine are both in double bonds and contribute only one tt electron to the aromatic sextet, just as a carbon atom in benzene does. The nitrogen atom in pyrrole, however, is not in a double bond and contributes two tt electrons (its lone pair) to the aromatic sextet. In imidazole, both kinds of nitrogen are present in the same molecule— a double-bonded "pyridine-like" nitrogen that contributes one v electron and a pyrrole-like" nitrogen that contributes two. 

Heterocyclic amines are compounds that contain one or more nitrogen atoms as part of a ring. Saturated heterocyclic amines usually have the same chemistry as their open-chain analogs, but unsaturated heterocycles such as pyrrole, imidazole, pyridine, and pyrimidine are aromatic. All four are unusually stable, and all undergo aromatic substitution on reaction with electrophiles. Pyrrole is nonbasic because its nitrogen lone-pair electrons are part of the aromatic it system. Fused-ring heterocycles such as quinoline, isoquinoline, indole, and purine are also commonly found in biological molecules. 

Kernstandige heteroaromatische Carbonsaure-ester mit einem elektronenliefernden Heteroring der Pyridin-3, Pyrimidin-4, Indol-5, Thiophen-6 und 1,3-Thiazol-Reihe7 werden mit Lithiumalanat zu den Methyl-Derivaten reduziert. Pyrrol-carbonsaure-estcr lassen sieh in Tetrahydrofuran oder Diathylather meist leiehter zu den Methyl-pyrrolen reduzieren als die entsprechenden Carbonsauren (s. S. 171). Die N-Alkoxycarbonyl-Gruppe wird wahrend der Reaktion abgespalten (vgl. S. 237). 

Pyridoxal 157,158,253 Pyridoxamine 253 Pyridoxine 253 Pyrimidines 266,438, 439 Pyrocatechol see 1,2-Dihydroxybenzene I ocatecholsulfophthalein 398 I ocatechol violet reagent 398 Pyrolysis of organic compounds 92, 96 a,y-Pyrone derivatives 288 Pyrrole alkaloids 66 Pyrrole derivatives 266, 269, 270 Pyruvic acid 426... 

The foregoing examples show that the nucleophilic attack to nitroarenes at the o>T/ o-position followed by cyclization is a general method for the synthesis of various heterocycles. When nucleophiles have an electrophilic center, heterocyclic compounds are obtained in one step. Ono and coworkers have used the anion derived from ethyl isocyanoacetate as the reactive anion for the preparation of heterocyclic compounds. The carbanion reacts with various nitroarenes to give isoindoles or pyrimidines depending on the structure of nitroarenes (Eqs. 9.56 and 9.57).89 The synthesis of pyrroles is discussed in detail in Chapter 10. 

The pyrrolo[2,3-c/]pyrimidine anticancer agent is prepared utilizing, as a key sequence, Michael condensation of 2,6-diamino-4(.37/)-pyrimidinone with nitroalkenes, followed by the Nef reaction that leads to the annulated pyrrole ring (Eq. 10.67).98... 

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