Nitriles intramolecular

Ester, aldehyde, carbonate, phosphate, nitrate, nitrite, nitrile, intramolecular bonding, e.g., o-nitrophenol - 0 -1- - -1- -1- 0 -1- -1- 0 -1- -1-... 

Without additional reagents Ring closures with tetracyanoethylene Double ring closure of nitriles Intramolecular jt4 + jr2-cycloaddition of a cyano group... 

Lithium diethylamide (x-Metalation of nitriles Intramolecular C-alkylation... 

The use of oximes as nucleophiles can be quite perplexing in view of the fact that nitrogen or oxygen may react. Alkylation of hydroxylamines can therefore be a very complex process which is largely dependent on the steric factors associated with the educts. Reproducible and predictable results are obtained in intramolecular reactions between oximes and electrophilic carbon atoms. Amides, halides, nitriles, and ketones have been used as electrophiles, and various heterocycles such as quinazoline N-oxide, benzodiayepines, and isoxazoles have been obtained in excellent yields under appropriate reaction conditions. 

Allylalion of the alkoxymalonitrile 231 followed by hydrolysis affords acyl cyanide, which is converted into the amide 232. Hence the reagent 231 can be used as an acyl anion equivalent[144]. Methoxy(phenylthio)acetonitrile is allylated with allylic carbonates or vinyloxiranes. After allylation. they are converted into esters or lactones. The intramolecular version using 233 has been applied to the synthesis of the macrolide 234[37]. The /i,7-unsaturated nitrile 235 is prepared by the reaction of allylic carbonate with trimethylsilyl cyanide[145]. 

The tertiary amine is formed in a similar manner from the imine and a secondary amine. This side reaction can be minimized by carrying out the hydrogenation in the presence of ammonia, which tends to shift the equiHbrium back towards the imine. When a compound with two or more nitrile groups is hydrogenated, the formation of both cycHc and acycHc secondary and tertiary amines is possible, depending on whether the side reaction is intramolecular or intermolecular. For example, for the hydrogenation of adiponitfile ... 

Cyclization reactions effected by intramolecular attack of the heteroatom on a nitrile group provide a useful source of 2-amino heterocycles. Some illustrative examples are depicted in Scheme 16. 

The synthetic application of reactions based upon the intramolecular addition of a carbanion or its enamine equivalent to a carbonyl or nitrile group has been explored extensively. One class of such reactions, namely the Dieckman, has already been discussed in Section 3.03.2.2, since ring closure can often occur so as to form either the C(2)—C(3) or C(3)—C(4) bond of the heterocyclic ring. Some illustrative examples of the application of this type of ring closure are presented in Scheme 46. 

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. 

The evidence obtained clearly indicates that the above photorearrangements proceed by a mechanism involving a nitrile ylide intermediate since cycloadducts could be isolated when the irradiations were carried out in the presence of trapping agents. Intramolecular cycloaddition of the nitrile ylide followed by a 1,3-sigmatropic hydrogen shift of the initially formed five-membered ring readily accounts for the formation of the final product. 

Nitrile ylides derived from the photolysis of 1-azirines have also been found to undergo a novel intramolecular 1,1-cycloaddition reaction (75JA3862). Irradiation of (65) gave a 1 1 mixture of azabicyclohexenes (67) and (68). On further irradiation (67) was quantitatively isomerized to (68). Photolysis of (65) in the presence of excess dimethyl acetylenedicar-boxylate resulted in the 1,3-dipolar trapping of the normal nitrile ylide. Under these conditions, the formation of azabicyclohexenes (67) and (68) was entirely suppressed. The photoreaction of the closely related methyl-substituted azirine (65b) gave azabicyclohexene (68b) as the primary photoproduct. The formation of the thermodynamically less favored endo isomer, i.e. (68b), corresponds to a complete inversion of stereochemistry about the TT-system in the cycloaddition process. 

S-Substituted thiiranium ions react with secondary amines to give ring-opened products. Nitriles also react with thiiranium ions, probably via an open carbenium ion whose formation is favored by increasing the polarity of the medium by the addition of lithium perchlorate (Scheme 79) (79ACR282). An intramolecular displacement by an amide nitrogen atom on an intermediate thiiranium ion has been invoked (80JA1954). 

Tetrazole synthesis (torn azides by dipolar cycloadd ition with activaled n ltnies or intramolecularly with nitriles in the presence of acids. 

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. 

Intramolecular reactions of nitrile imines as a fruitful source of heterocycles 98H(47)541. 

The intramolecular cycloaddition of a nitrile oxide (a 1,3-dipole) to an alkene is ideally suited for the regio- and stereocontrolled synthesis of fused polycyclic isoxazolines.16 The simultaneous creation of two new rings and the synthetic versatility of the isoxa-zoline substructure contribute significantly to the popularity of this cycloaddition process in organic synthesis. In spite of its high degree of functionalization, aldoxime 32 was regarded as a viable substrate for an intramolecular 1,3-dipolar cycloaddition reaction. Indeed, treatment of 32 (see Scheme 17) with sodium hypochlorite... 

Scheme 17. Construction of aglycon 9 intramolecular nitrile oxide-olefin cycloaddition of intermediate 31.

The observed differences in the reactivity of the nitrile groups in the macromolecules of the copolymers can be explained by an intramolecular nucleophilic interaction of the nitrile groups with the adjacent functional groups applying the same point of view as for adjacent nitrile groups ... 

When PAN-T samples are heated by a gradual increase of temperature, the mercapto groups of the tautomeric form of the thioamide groups, enter into an intramolecular reaction with the nitrile groups in accordance with the following scheme ... 

In the Thorpe reaction, the a carbon of one nitrile molecule is added to the CN carbon of another, so this reaction is analogous to the aldol reaction (16-38). The C=NH bond is, of course, hydrolyzable (16-2), so p-keto nitriles can be prepared in this manner. The Thorpe reaction can be done intramolecularly, in which case it is... 

Isocyanides, when heated in the gas phase or in nonpolar solvents, undergo a 1,2-intramolecular rearrangement to nitriles RNC — RCN. In polar solvents the mechanism is different. 

Head-to-head [2+2]photocycloaddition of 1,2-diarylethanediones and 2-aminopropene nitriles (CH2 C(CN)NR2) occurs to yield oxetanes 10 in moderate to good yields. The formation of only one diastereoisomer in each of the cases investigated is rationalized in terms of the most easily accessible and stabilized 1,4-diradical intermediate <95RTC498>. 2,3,4-Trisubstituted oxetanes 11 are obtained in high yield by intramolecular nucleophilic attack of the anion from certain 2-(l-alkoxyethyl)-3-substituted oxiranes <96JOC4466>. 

The cycloaddition of alkynes and alkenes to nitrile oxides has been used in the synthesis of functionalised azepine systems <96JHC259>, <96T5739>. The concomitantly formed isoxazole (dihydroisoxazole) ring is cleaved by reduction in the usual way. Other routes to 1-benzazepines include intramolecular amidoalkylation <96SC2241> and intramolecular palladium-catalysed aryl amination and aryl amidation <96T7525>. Spiro-substituted 2-benzazepines have been prepared by phenolic oxidation (Scheme 5) <96JOC5857> and the same method has been applied to the synthesis of dibenzazepines <96CC1481>. 

Keywords Intramolecular 1,3-dipolar cycloadditions. Stereoselectivity, Nitrile oxides, SUyl nitronates. Oximes, H-Nitrones, Azides, NitrUimines... 

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