Intramolecular alkylative cyclization

Ni(COD)2 alone catalyzes intramolecular alkylative cyclization of an alkynal with diethylzinc, while Ni(COD)2/PBu3 catalyzes reductive cyclization with the same zinc reagent (Scheme 87). 

Recent efforts in the area of Friedel-Crafts alkylations have focused on the direct introduction of alkyl groups bearing functionalities, and on intramolecular alkylative cycliz-ations. The cyclization of the 2-substituted thiophene (55) to (56) has been achieved in 65% yield (80JOC3159). Similarly, the 3-substituted thiophene (57) has been cyclized to the isomeric (58). In both cases, detosylation of the product was achieved by treatment with diisobutylaluminum hydride (DIBAL). An elegant bis-cyclization of the diene (59) to the octahydrodibenzothiophene (60) has been reported (70CJC2587). 

At this point, it appeared that enolate formation toward the pro C3 carbon (see 92 for numbering) might not be a viable proposition. Given a choice, either it did not occur in that direction or if it did, then the enolate equilibrated to an alternative form that led to 125 in the case of the attempted alkylation of iodide 124, or to 133 in the attempted aldol cyclization of 131. We eventually elected to explore the intramolecular alkylative cyclization of keto iodide 134. To this end, mesylation of 127a followed by displacement with Nal led to 134 (80%). Treatment of this iodide with excess LDA in THF at -78 °C, followed by warming to room temperature, produced a single product. Workup, isolation, and characterization indicated that the desired adduct 92 had indeed been produced, and in a reasonable 63% yield. 

The synthesis and base-mediated intramolecular alkylation/cyclization of 6-deoxy-6-iodo-2,3 4,5-di-0-isopropylidene-D-glucose leading to the polyfun-ctionalised cyclopentane 145 has been reported. The reduction and acetylation of this compound to generate a 4a-carfca-a-D-arabinofuranoside derivative was also described. ... 

Intramolecular alkylative cyclizations of allenes with enones have been developed for the preparation of cyclic unsaturated carbonyl compounds These processes have been used for the synthesis of (-)-a-kainic acid [175]. 

Intramolecular alkylative cyclizations of allenes with aldehydes furnish homo-allylic alcohols [206]. Tetudinariol A is synthesized by using this strategy [207]. 

An interesting case of ipso intramolecular alkylation has been observed in the case of the acid-promoted cyclization of the amino alcohols (61). With trifluoroacetic acid the major product was the rearranged thienopyridine (62), whereas with polyphosphoric acid the product formed exclusively was the non-rearranged thienopyridine (63) (82CC793). 

Stereochemical positioning of a functional group, relative to a separate enamine moiety in the same molecule, can be done in such a manner that a simple intramolecular alkylation or acylation will cause cyclization. Such intramolecular cycloalkylations with alkyl halides have been reported 107,108). Inftamolecular cycloacylations of enamines with esters 109, 110,110a) and with nitriles 110a,l 11,111a) have also been observed. 

Addition to 1,2-dimethyl- -piperideine or 1,2-dimethyl- -pyrroline is followed by intramolecular alkylation by the ester group as a side reaction to give 140 and 141 ( = 1, 2), respectively. Cyclization products 142 and... 

The tandem intramolecular conjugate addition to 99 followed by an intramolecular alkylation reaction leads to a bis-cyclized product in good yield (equation 80)66. 

The guanidinate-supported titanium imido complex [Me2NC(NPr02l2Ti = NAr (Ar = 2,6-Me2C6H3) (cf. Section IILB.2) was reported to be an effective catalyst for the hydroamination of alkynes. The catalytic activity of bulky amidinato bis(alkyl) complexes of scandium and yttrium (cf. Section III.B.l) in the intramolecular hydroamination/cyclization of 2,2-dimethyl-4-pentenylamine has been investigated and compared to the activity of the corresponding cationic mono(alkyl) derivatives. 

Intramolecular alkylation of enolates can be used to synthesize bi- and tricyclic compounds. Identify all the bonds in the following compounds that could be formed by intramolecular enolate alkylation. Select the one that you think is most likely to succeed and suggest reasonable reactants and reaction conditions for cyclization. 

Alternatively, the enamine portion may be located in the Aralkyl chain. For instance, piperidines bearing a 7-chloro substituent yielded quinolizidines 263 through a conjugate addition of the nitrogen atom to acetylenic sulfones followed by an intramolecular alkylation (Scheme 55) <2000JOC4543>. Other cyclizations that are summarized below used as starting materials piperidine derivatives obtained by similar conjugate additions to vinyl sulfones (see Section 12.01.9.3.6). 

In 1975, van der Baan and Bickelhaupt reported the synthesis of imide 37 from pyridone 34 as an approach to the hetisine alkaloids, using an intramolecular alkylation as the key step (Scheme 1.3) [23]. Beginning with pyridone 34, alkylation with sodium hydride/allyl bromide followed by a thermal [3,3] Claisen rearrangement gave alkene 35. Next, formation of the bromohydrin with A -bi omosuccinimide and subsequent protection of the resulting alcohol as the tetrahydropyranyl (THP) ether produced bromide 36, which was then cyclized in an intramolecular fashion to give tricylic 37. 

Nakagawa devised a concise synthetic route to physostigimine (169) where the key step involves the alkylative cyclization of 1,3-dimethylindole (167) with (Z)-aziridine catalyzed by Sc(OTf)3 and TMSC1 to give 168, which, in turn, can be converted into 169 . A similar asymmetric approach to this natural product was also developed by these authors via treatment of tryptophan carbamates with the Corey-Kim reagent so as to induce intramolecular cyclization to the pyrrolo-indole skeleton . 

This alkylation reaction can be applied to intramolecular alkylation affording cyclic products, as shown in Equations (19)-(21). The reaction of 2-vinylpyridines with 1,5- or 1,6-dienes results in the formation of five- or six-membered carbocycles with good efficiency.20,20a,20b In addition to pyridine functionality, oxozole and imidazole rings can be applied to this intramolecular cyclization. When the reaction is conducted in the presence of a monodentate chiral ferrocenylphosphine and [RhCl(coe)2]2, enantiomerically enriched carbocycles are obtained. A similar type of intramolecular cyclization is applied to TV-heterocycles. The microwave irradiation strongly... 

A similar intramolecular alkylation of arene-ene substrates is catalyzed by RuGl3/AgOTf, providing good to excellent yields of cyclization products (chromanes, tetralins, terpenoids, and dihydrocoumarins).25 This method is applied to the synthesis of tricyclic terpenoids, which are formed in nearly quantitative yields with high stereoselectivities (trans cis various between 99 1 and 99 2), as shown in Equation (24). 

This reaction can also be used for exocyclic intramolecular alkylation of an allylic silane, such as the cyclization of 3 to trarts-4 with complete stereocontrol. 

A rather different allene cyclization that takes place in tandem with an alkylative process has been described by Trost and Urabe [66] (Eq. 13.52). Exposure of ketoal-lene 169 to divinylmethylaluminum 170 in dichloromethane solution leads to 171 in 60% yield. The mechanism of this alkylative cyclization involves complexation of the Lewis acidic aluminum to the carbonyl oxygen atom, followed by ring closure, leading to zwitterion 172. Intramolecular transfer of a vinyl group from aluminum to carbon completes the process. 

Azetidones (p-lactams) are generally obtained in high yield from (3-halopropion-amides (Table 5.18) and the low yield from the reaction of N-phenyl (3-chloropropi-onamide can be reconciled with the isolation of A-phenyl acrylamide in 58% yield [34]. The unwanted elimination reaction can be obviated by conducting the cyclization in a soliddiquid system under high dilution [35, 36]. Azetidones are also formed by a predominant intramolecular cyclization of intermolecular dimerization to yield piperazine-2,5-diones, or intramolecular alkylation to yield aziridones. Aone-pot formation of azetidones in 45-58% yield from the amine and P-bromocarboxylic acid chloride has also been reported [38]. 

Scheme 36 Intramolecular cathodic cyclization of ketones with aryl rings R alkyl, yields 21-74%.

Pyrrolo[l,2-(7][l,2,5]benzotriazepin-ll-one 329 is the product of a sequence starting from N-(2-nitrophenyl)-lH-pyrrol-l-amine 327. The pathway included alkylation, reduction of the nitro group, formation of the isocyanate from intermediate 328 and intramolecular thermal cyclization (Scheme 69 (2000JHCl539)). 

Enamine 106 (derived from Meldrum s acid), in a process of mono-decarboxylating transesterification and subsequent intramolecular alkylation, is cyclized to form enamino ester 107 (90H(31)1251). The direct route by flash vacuum thermolysis does not work in the case of 6/7 bicyclic 107. Methylene compound 109 originates (analogously to bicyclic 40b) from... 

This example illustrates the synthesis of cyclic compounds by intramolecular alkylation reactions. The relative rates of cyclization for ca-haloalkyl malonate esters are 650,000 1 6500 5 for formation of three-, four-, five-, and six-membered rings, respectively.28 (See Section 3.9 of Part A to review the effect of ring size on Sn2 reactions.)... 

It is the opinion of the present authors that isomerization of a tertiary alkyl radical to a primary radical as in the formation of II from I is improbable. The formation of IV is similarly unlikely. The cycliza-tion of V by intramolecular alkylation seems quite plausible however, equation 9 does not explain either the formation of V or its subsequent cyclization. The following mechanism has the advantages that, like the generally accepted free radical-initiated mechanisms, it postulates a chain reaction and that the intramolecular alkylation step is directly analogous to that proposed for thermal alkylation, namely addition of an alkyl radical to the double bond of the alkene (Frey and Hepp, 12). The method of formation of the chain initiator, R —, again is not critical since R —, merely starts the first cycle of the chain reaction it may be formed by decomposition of the isobutylene. 

Postsynthetic intramolecular alkylation of a cysteine thiol group with a bromo amino acid has also been proposed/431 but this approach is limited by the low coupling efficiency of the bromo amino acid in the peptide synthesis due to a competing intramolecular cyclization reaction. A promising new approach consists of using suitably protected cysteine and homoserine derivatives for the peptide synthesis, whereby the side-chain hydroxy group of homoserine is protected as the TBDMS derivative which is converted on resin into the chloro derivative with freshly prepared triphenylphosphine dichloride. Upon cleavage from the resin, cyclization is performed in solution as shown in Scheme 11144]... 

Reaction of the anion of tert-butyl isocyanoacetate with oxiranes gives the y-hydroxy products 11, which upon mesylation can be transformed by an intramolecular alkylation to the iso-cyanocyclopropanecarboxylates 12, the precursors of 1-amino-cyclopropanecarboxylates100. The cyclization 11 — 12 shows a relatively high degree of stereoselectivity due to the difference in bulkiness betwen the isocyano and the tert-butoxycarbonyl groups. 

Until 1968, not a single nonenzymic catalytic asymmetric synthesis had been achieved with a yield above 50%. Now, barely 15 years later, no fewer than six types of reactions can be carried out with yields of 75-100% using amino acid catalysts, i.e., catalytic hydrogenation, intramolecular aldol cyclizations, cyanhydrin synthesis, alkylation of carbonyl compounds, hydrosilylation, and epoxidations. 

Many methods have been developed for the enantioselective synthesis of unnatural a-amino acids. Jeff Johnston of Indiana University reports (J. Am. Chem. Soc. 125 163,2003) coupling the asymmetric alkylation of O Donnell with intramolecular radical cyclization, leading to what appears to be a general method for the enantioselective construction of indolines. 

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