Imines azomethine

As the sp nitrogen atom in many heterocycles can be alkylated and aminated, the construction of an azomethine ylide or azomethine imine dipole is readily attainable as shown in Scheme 13. These ylides are very reactive and undergo cycloaddition with a... 

Scheme 13 Azomethine ylides and azomethine imines incorporated in heterocyclic systems...

Use of mesoionic ring systems for the synthesis of five-membered heterocycles with two or more heteroatoms is relatively restricted because of the few readily accessible systems containing two heteroatoms in the 1,3-dipole. They are particularly suited for the unambiguous synthesis of pyrazoles as the azomethine imine is contained as a masked 1,3-dipole in the sydnone system. An attractive feature of their use is that the precursor to the mesoionic system may be used in the presence of the cyclodehydration agent and the dipolarophile, avoiding the necessity for isolating the mesoionic system. 

Trifluoromethyl-substituted 1,3-dipoles of the allyl type. Trifluoromethyl-substituted azomethine imines ate readily available on reaction of hexafluo-... 

Trifluoromethyl-substitutedazimines are surprisingly stable compounds. They are accessible by 1,3-dipole metathesis from tnfluoromethyl-substituted azomethine imines and certain nitroso compounds [187, 188] On photolysis, an electrocyclic ring closure first gives the triaziridines, which are stable at room temperature. On heating above 80-100 C, a valence tautomenzation takes place and azimines are formed [189] (equation 43). 

The above cycloaddition process consists of two separate [3-1-2] cycloaddition steps and represents a 1,3-2,4 addition of a multiple bond system to a hetero-1,3-diene [7S7]. The structure ot the azomethine imine intermediate has been proved unequivocally by X-ray analysis [195] Ethylene [194], acetylene [/iS2] . many alkyl- and aryl- as well sgemmal dialkyl- and diaryl-substituted alkenes [196,197, 198, 199], dienes [200], and alkynes [182, 201], certain cyclic alkenes [198, 199,... 

A simple preparative route to the previously unknown lH-3-pyrazolines via azomethine imines was developed. Olefins of the type R cH=CHR react with hexafiuoroacetone azine to give azomethine mines, which undergo a sequence of prototropic shifts to form 17/-3-pyrazolines [196, 202], On heating, the latter are transformed into 3-trifluoromethylpyrazoles [196, 206] and, on treatment with bases, into 1,2,5,6-tetrahydropynmidines [206] (equation 45)... 

An unusual 1,4-migration of a trifluoromethyl group was observed when azomethine imines were synthesized from hexafluoroacetone azine and alkoxy-acetylenes The rearrangement, which occurs at temperatures as low as 0 "C, results in the formation of A-(perfluoro-ferf-butyl)pyrazoles [207] (equation 46)... 

The azomethine imines exhibit the typical cycloaddition behavior expected of 1,3-dipolar species [fSJ] Numerous [3+2] cycloaddition reactions have been performed [201 204] Tetracyanoethylene adds to azomethine imines across the nitnle function instead of the C=C double bond This reaction is a rare example of this type of periselectivity [208] (equation 47)... 

Stable heterocyclic five-member azomethine imines, azolium fV-imides, tria-zolium and pyrazolidinium ylides 98H(49)587. 

Asymmetric dipolar cycloaddition of azomethine imines derived from diazoal-kane-pyridazine cycloadducts 98JHC1187. 

Pyrrolo annulated triazine 77 was prepared (88TL4415) by the [6 + 4]-cycloaddition of azoniafulvene ion 76 with azomethine imines generated from benzylidene phenylhydrazone (Scheme 19). 

Huisgen et al. (1960, 1977 b) found that (i )-4-chlorobenzenediazocyanide reacts with 9-diazofluorene to give the azomethine imine 6.38 in 93 % yield (Scheme 6-28). Huisgen et al. interpret this reaction in terms of the electrophilicity of the diazocyanide at its a-nitrogen atom (not 0 ) and the nucleophilic character of 9-diazofluorene, as shown in the bipolar mesomeric structure 6.37. 

The azomethine imine 6.39 reacts readily to give various 1,3-dipolar cycloaddition products (Huisgen and Eckell, 1977 for the naming of cycloadditions see Huisgen 1968). 

Scheldt and Chan have shown that NHC promoted homoenolate formation and addition to azomethine imines 37 generates pyridazinones 41 with high diastereoselectivity, via a proposed highly organised transition state 40 due to a key hydrogen bonding interaction (Scheme 12.6) [12]. 

Dipolar cycloaddition reaction of suitable dipolarophiles to azomethine imines is a well-known method leading to the pyrazolo[l,2-tf]pyrazole ring system and the methodology was duly reviewed in CHEC-II(1996) <1996CHEC-II(8)747>. During the covered period, some new applications have appeared. 

Thermolysis of 6-substituted l,5-diazabicyclo[3.1.0]hexanes 326, easily available from 325, leads to a diaziridine ring opening and to the intermediate formation of labile azomethine imines 327. These compounds can be stabilized by a proton shift to form 1-substituted 2-pyrazolines 328. However, when the thermolysis is carried out in the presence of a 1,3-dipolarophile, the corresponding products of dipolar cycloaddition can be obtained. For example, iV-arylmaleimides provide mixtures of the major trans- and minor air-products 329 and 330, respectively (Scheme 47) C1999RJO110, 2001RJ0841, 2003RJ01338, 2004RJ067>. 

Pyrazolo[l,2- ][l,2,4]triazolo[3,4-f][l,2,4]benzotriazines 485-487, containing the title substmcture, can be prepared by application of a well-known strategy using 1,3-dipolar cycloaddition to suitable azomethine imines... 

H(65)1889, 2005EJO3553>. Starting dihydro[l,2,4]triazolo[3, 4-4]benzo[l,2,4]triazines 482 readily react with aromatic aldehydes to yield iminium salts 483. These salts treated with a base (e.g., triethylamine) are deprotonated to reactive 1,3-dipolar azomethine imines 484. In contrast to related five-membered heterocycles, these compounds are relatively unstable on storage in the solid form and particularly in solution. Fortunately, this obstacle can be easily circumvented by their in situ preparation and subsequent 1,3-dipolar cycloaddition. These compounds can participate in 1,3-dipolar cycloadditions with both symmetric and nonsymmetric dipolarophiles to give the expected 1,3-cycloadducts in stereoselective manner. Selected examples are given in Scheme 82. 

High levels of asymmetric induction (97-74% ee) along with high diastereoselectivity (>99 1-64 36) were reported for asymmetric 1,3-dipolar cycloaddition reactions of fused azomethine imines 315 and 3-acryloyl-2-oxazolidinone 709 leading to 711 using a chiral BINIM-Ni(n) complex 710 as a chiral Lewis acid catalyst (Equation 100) <20070L97>. 

Stereochemistry was controlled by the stereodirecting phenyl group at position 3 and by the ortho-substituents of the aromatic ring at position 10 in the azomethine imines (Equation 101) <2007T991>. 

Combinatorial solution-phase cycloadditions of (1Z,4R, 5R )-4-benzoylamino-5-phenylpyrazolidin-3-on-l-azomethine imines 320 to 3-keto esters afforded a library of 26 highly pure bicyclic pyrazolidinones 713 in 6-89% yields and in 14-100% de. Most of the products were isolated as mixtures of the major (13, 23, 3/ , 5/ , 6/ )-epimers 713 and the minor (1R, 2A, 3R, 5R, 6R )-epimers 714 (Scheme 113). Epimerization of these cycloadducts at the anomeric position in solution was confirmed by H NMR spectroscopy <2007MI717>. 

Addition of A-mesityl benzimidazolyl carbene 720 to an a,/3-unsaturated aldehyde generates a homoenolate intermediate that undergoes an addition/acylation sequence with azomethine imine 719 to afford (3R, 5S, 6S )-177-pyrazolo[l,2- ]pyridazine-l,8(5//)-diones 721 with excellent diastereoselectivity. Compound 721 (Ar = R = Ph) treated with sodium hydoxide in methanol or benzylamine provided nearly quantitatively, ring-opened products 722a and 722b, respectively (Scheme 116) <2007JA5334>. 

The benzocinnolinium azomethine imines 76 (R = Ph, OEt) react readily with DEAZD by 1,3-dipolar cycloaddition to give the corresponding tetra-zolidine derivatives (Eq. 10).124 The masked azomethine imine 77 is particularly unreactive as a 1,3-dipole, although PTAD reacts cleanly where other dipolarophiles either failed to react or gave complex mixtures (Eq. 11).125... 

Although formally the product of 1,4-addition of the carbene to the ADC 4n unit, 1,3,4-oxadiazolines probably arise via initial nucleophilic attack of the diazo compound to give, after loss of N2, a dipolar intermediate. This intermediate azomethine imine can collapse directly to give the oxadiazoline,... 

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