Pyrroles intramolecular

Cyclizations. A great number of substrates designed for cyclization have been studied, including those leading to l-sulfinylmethylene-2-methylenecycloalkanes and to pyrroles. - Intramolecular Heck reaction involving enol triflate and allylsilane moieties is useful for the synthesis of cyclic compounds. ... 

The acid-catalyzed rearrangements of substituted pyrroles and thiophenes consequent on ipso protonation have been referred to previously (Section 3.02.2.4.2). There is some evidence that these rearrangements are intramolecular in nature since in the case of acid-induced rearrangement of 2-acylpyrroles to 3-acylpyrroles no intermolecular acylation of suitable substrates could be demonstrated (Scheme 10) (8UOC839). 

Interesting results have been obtained in intramolecular acylation reactions involving pyrrole and thiophene derivatives. A muscone synthesis involves selective intramolecular acylation at a vacant a-position (Scheme 18) (80JOC1906). In attempts to prepare 5,5-fused systems via intramolecular acylation reactions on to a jS-position of a thiophene or a pyrrole, in some cases ipso substitution occurs with the result that rearranged products are formed (Scheme 19) (82TH30200). 

The use of a vinylphosphonium salt as the source of the QQ fragment instead of the more commonly employed 1,2-dicarbonyl substrate is illustrated by the pyrrole synthesis in Scheme 79b (8UOC2570). A particularly interesting feature is the intramolecular Wittig reaction with an amide carbonyl group. A very useful synthesis of pyrroles depends upon the addition of the anion of p-toluenesulfonylmethyl isocyanide (TOSMIC) to a,/3-unsatur-... 

The ring opening of 2//-azirines to yield vinylnitrenes on thermolysis, or nitrile ylides on photolysis, also leads to pyrrole formation (B-82MI30301). Some examples proceeding via nitrile ylides are shown in Scheme 92. The consequences of attempts to carry out such reactions in an intramolecular fashion depend not only upon the spatial relationship of the double bond and the nitrile ylide, but also upon the substituents of the azirine moiety since these can determine whether the resulting ylide is linear or bent. The HOMO and second LUMO of a bent nitrile ylide bear a strong resemblance to the HOMO and LUMO of a singlet carbene so that 1,1-cycloadditions occur to carbon-carbon double bonds rather than the 1,3-cycloadditions needed for pyrrole formation. The examples in Scheme 93 provide an indication of the sensitivity of these reactions to structural variations. 

Whereas the cycloaddition of arylazirines with simple alkenes produces A -pyrrolines, a rearranged isomer can be formed when the alkene and the azirine moieties are suitably arranged in the same molecule. This type of intramolecular photocycloaddition was first detected using 2-vinyl-substituted azirines (75JA4682). Irradiation of azirine (54) in benzene afforded a 2,3-disubstituted pyrrole (55), while thermolysis gave a 2,5-disubstituted pyrrole (56). Photolysis of azirine (57) proceeded similarly and gave 1,2-diphenylimidazole (58) as the exclusive photoproduct. This stands in marked contrast to the thermal reaction of (57) which afforded 1,3-diphenylpyrazole (59) as the only product. 

Pyrrole, l-(2-acylaminophenyl)-intramolecular aeylation, 4, 223 Pyrrole, 3-acyl-2-ehloromethyl-reactions, 4, 274 Pyrrole, 3-acyl-2-formyl-reactions... 

Pyrrole, 1 -benzyl-2-(2-carboxybenzoyl)-intramolecular acylation, 4, 221 Pyrrole, l-benzyl-2,5-dichloro-3,4-diformyl-reactions... 

The formation of five- (362) and six- (581) membered vinylogous lactams and pyrroles by intramolecular enamine acylations has been accomplished in some examples by formation of the cyclization precursor through an initial enamine exchange (362). 

The last method for the preparation of 2-quinolones described in this chapter relies on a intramolecular Heck cyclization starting from heteroaryl-amides (Table 2) [57]. These are synthesized either from commercially available pyrrole- and thiophene-2-carboxylic acids (a, Table 2) or thiophene-and furan-3-carboxylic acids (b, Table 2) in three steps. The Heck cyclization is conventionally performed with W,Ar-dimethylacetamide (DMA) as solvent, KOAc as base and Pd(PPh3)4 as catalyst for 24 h at 120 °C resulting in the coupled products in 56-89% yields. As discussed in Sect. 3.4, transition metal-catalyzed reactions often benefit from microwave irradiation [58-61], and so is the case also for this intramolecular reaction. In fact, derivatives with an aryl iodide were successfully coupled by conventional methods, whereas the heteroarylbromides 18 and 19, shown in Table 2, could only be coupled in satisfying yields by using MAOS (Table 2). 

One-electron oxidation of the Fe(IIl) complexes Fe(Por)R can either give an observable Fe(lV) complex, [Fe(Por)R]", or can induce migration of the R group to a pyrrole nitrogen, essentially an intramolecular reductive elimination process. 

Coupled intermolecular hydroaminations and intramolecular cycUzations give pyrroles resulting from isomerization of the initially formed exomethylene dihydropyrrole derivatives (Eq. 4.85) [137]. 

Another pyrrole synthesis based on intramolecular substitution of the nitro group by amino function is presented in Eq. 10.7, in which the Michael addition of enamines to nitroalkenes is used.9... 

Fused (5 5 5) heterocycle 28, along with 342, has been synthesized in 34% yield via an intramolecular nitrone cycloaddition, using l-allyl-2-pyrrole carboxaldehyde 340 as a starting material (Scheme 72) <1998JOC9279>. 

An efficient synthesis of rigid tricyclic (5 5 5) nitrogen heterocycles 64 has been achieved via sequential and tandem Ugi/intramolecular Diels-Alder (IMDA) cycloaddition of pyrrole derivatives <2004JOC1207> and the trienes 477 were prepared by the acylaton of amines 475 with the anhydride 476. The amines 475 were in turn prepared starting from pyrrole-2-carbaldehyde. The triene 477 on heating in toluene at 80 °C for 15 h underwent the IMDA to afford the tricyclic compound 64 as a single diastereomer in quantitative yield. The sterically bulky N-substitutent on the triene 477 promoted cycloaddition under milder condition at 65 °C in toluene to provide the tricyclic compound 64 in quantitative yield (Scheme 108). 

Entry to the ugibohlin, phakellin, and isophakellin ABC ring systems was achieved via intramolecular N(l)-C(3) cyclizations of the Weinreb amide 169 of pyrrole-proline 168 or its brominated derivatives to give the bispyrrolopyr-azine 170 (Scheme 12) <2005TL249>. 

---