Five-membered heterocycles pyrrole

The reactivity of the five-membered heterocycles pyrrole, furan, thiophen and imidazole (Fig. 8-10) is characterised by interactions with electrophilic reagents. The precise nature of these reactions depends upon the particular ring system. Thiophens undergo facile electrophilic substitution, whereas the other compounds exhibit a range of polymerisation and other Lewis acid-initiated reactions upon treatment with electrophiles. We saw a number of examples of Lewis acid-promoted reactions of furans and pyrroles in Chapter 6. Although reactions of complexes of five-membered heterocyclic ligands have not been widely investigated, a few examples will illustrate the synthetic potential. 

Photoreaction of 2-, 3- and 4-iodoquinolines with five-membered heterocycles (pyrrole, iV-methylpyrrole, furan and thiophene) affords the corresponding -(2-heteroaryl)quino-lines (n = 2, 3,4) in appreciable yields526. 3-Halo-1-methylquinolin-2-ones can be converted into 3-aryl-l-methylquinolin-2-ones by photochemical coupling with various aromatic or heteroaromatic compounds527,528. 

Similarly, the five-membered heterocycle pyrrole (18) is aromatic, although this molecule obeys Hiickel s rule only because the nitrogen atom contributes two electrons to the jc-cloud. In this respect, pyrrole is analogous to the cyclopentadienyl anion. As a consequence, the nitrogen atom does not retain a lone pair of electrons and pyrrole is not basic. 

Tetrapyrroles are organic molecules that contain four five-membered heterocyclic (pyrrole) rings, linked in a cyclic or linear array. Haem, chlorophyll, cobalamin (vitamin B12), siroHaem, and coenzyme F430 belong to a family of prosthetic groups that are characterised by their tetrapyrrole-derived nature and contain a central,... 

The 1,3- and 1,2-azoles, five-membered rings with two heteroatoms, present a fascinating combination of heteroatom types - in all cases, one heteroatom must be of the five-membered heterocycle (pyrrole, thiophene, furan) type and one of the imine type, as in pyridine imidazole with two nitrogen atoms illustrates this best. Contributor 39 is a particularly favourable one. 

Some examples of ring opening reactions with carbanions leading to five-membered heterocyclic ring formation are shown in Scheme 85. Pyrrole syntheses from functionally substituted oxiranes and amines are often described and typical examples are shown in Scheme 86. 

Furans, thiophenes and pyrroles have all been obtained by addition of alkynic dienophiles to a variety of other five-membered heterocycles, as illustrated in Scheme 104. As the alkynic moiety provides carbons 3 and 4 of the resulting heterocycle, this synthetic approach provides an attractive way of introducing carbonyl containing substituents at these positions, especially as many of the heterocyclic substrates are readily generated. Such reactions do... 

The classical age of preparative organic chemistry saw the exploration of the extensive field of five-membered heterocyclic aromatic systems. The stability of these systems, in contrast to saturated systems, is not necessarily affected by the accumulation of neighboring heteroatoms. In the series pyrrole, pyrazole, triazole, and tetrazole an increasing stability is observed in the presence of electrophiles and oxidants, and a natural next step was to attempt the synthesis of pentazole (1). However, pentazole has eluded the manifold and continual efforts to synthesize and isolate it. 

Pyrrole Fused to Another Five-Membered Heterocycle. 283... 

The use of microwaves for the preparation of aromatic five-membered heterocycles has been intensely investigated with excellent results in terms of yields and purities of the products prepared. The Paal-Knorr reaction, namely the cyclocondensation of a 1,4-dicarbonyl compound to give furans, pyrroles and thiophenes has been successfully carried out with the aid of microwaves. 

Pyrrolopyridazines, Pyrrolopyrimidines, and Pyrrolopyrazines Fused through the Pyrrole to a Five-Membered Heterocycle... 

Five-Membered Heterocycles with One Heteroatom 6.24.3.1 Pyrroles... 

Heteroatom transfer in metallacyclopentadienes was first developed in the context of cobalt chemistry in the mid-1970s [27]. Cobaltacyclopentadienes were converted into various five-membered heterocyclic compounds such as pyrrole and thiophene, and into six-mem-bered heterocyclic compounds such as pyridine and pyridone derivatives. In the case of zirconacydopentadienes, the heteroatom compound must bear at least two halide substituents, since the Cp2Zr moiety is re-converted to the stable Cp2ZrX2. Indeed, this is the driving force behind the heteroatom transfer of zirconacydopentadienes. 

Structures and nomenclature for the most important five-membered monocycles with one or more heteroatoms are depicted in Scheme 1. The aromaticity scale in five-membered heterocycles has been long debated.97-101 The decreasing order of aromaticity based on various criteria is (DRE values in kcal/ mol) benzene (22.6) > thiophene (6.5) > selenophene > pyrrole (5.3) > tellurophene > fur an (4.3). Pyrrole and furan have comparable ring strains (Scheme 38). The aromaticity of furan is still controversial 100 the NMR shielding by ring current estimated it at about 60% of the aromaticity of benzene, and other methods reviewed earlier102 estimated it at less than 20%. 

The reaction of alkynyllithium compounds with alkoxycarbene tungsten complexes leads to anionic propargyl tungsten complexes (Figure 2.33 see also Figure 3.9). These intermediates are stable at low temperatures and react upon Lewis acid catalysis with aldehydes or A -sulfonyl imines to yield five-membered heterocycles [280]. Oxidative methoxycarbonylation [375] of the intermediate vinyl tungsten complex, followed by elimination of methanol leads to pyrroles or furanes (Figure 2.33 Entry 6, Table 2.22). 

Diketo oxime 43 (Scheme 27) find extensive use in organic synthesis. These compounds are useful building blocks in five-membered heterocyclic chemistry. These oximes can be used for the synthesis of pyrroles , thiazoles , oxazoles and pyrazoles . The diketo oxime 43 was synthesized in high yield by addition of an aqueous solution of sodium nitrite to a 0°C solution of 1-benzoylacetone 42 in AcOH . ... 

Oximes and their derivatives are widely used in organic synthesis. A number of reviews are devoted to the chemistry and biological activity of oximes and their derivatives The synthesis, reactions and biological activity of oximes containing a heterocyclic substituent, e.g. furan and thiophene", indole and isatin, pyridine, pyrrole, quinoline and five-membered heterocycles with two heteroatoms have been reviewed. 

In five-membered heterocycles, formally derived from benzene by the replacement of a CH=CH unit by a heteroatom, aromaticity is achieved by sharing four p-electrons, one from each ring carbon, with two electrons from the heteroatom. Thus in pyrrole, where the heteroatom is N, all the ring atoms are sp hybridized, and one sp orbital on each is bonded to hydrogen. To complete the six 7i-electron system the non-hybridized p-orbital of N contributes two electrons (Box 1.9). It follows that the nitrogen atom of pyrrole no longer possesses a lone pair of electrons, and the compound cannot function as a base without losing its aromatic character. 

Five-membered Heterocycles containing One Heteroatom Pyrrole, Furan and Thiophene... 

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