Dienes imines

The Kuehne synthesis has also been adapted to the preparation of 18-methylenevincadifformine (230).108" Unexpectedly, when (230) was hydrolysed by alkali, and the acid thus obtained was heated briefly in 3% aqueous hydrochloric acid, the only product that could be isolated was a diene-imine which has been assigned the structure (231). This is the first report of an intramolecular [4tt + 2n cycloaddition reaction involving an indolenine. When heated in benzene in the presence of toluene-p-sulphonic acid, 18-methylenevincadifformine (230) is smoothly hydrolysed and decar boxy lated, with exclusive formation of the indolenine (232) this can be quantitatively transformed into (231) by heating with 3% aqueous hydrochloric acid (Scheme 33). 

Pyridines can also be constructed by the Diels-Alder reaction of azadienophiles, such as nitriles or imines, and dienes. Imines usually need to be activated with Lewis acids such as Yb(OTf)3, ZnCL, and EtzAlCl. 

Whereas ruthenium(II) catalysts promote hydroaminoalkylation through hydrometalative pathways, ruthenium(0) catalysts derived from Ru3(CO)i2 and triphos enable catalytic mechanism involving diene-imine oxidative coupling (Scheme 20) [99]. Presently, transformations of this type are restricted to the... 

Abstract In the present chapter we discuss transition-metal-catalyzed phosphorus-hydrogen (P-H) bond addition to the triple bond of alkynes and to the double bond of alkenes, dienes, imines, aldehydes and ketones. Main attention is paid to highlight the factors responsible for development of highly efficient catalytic systems and to carry out the addition reaction with high stereo-, regio- and enantioselectivity. 

On the basis of these findings, the reaction of acyl imines with methanesulfony 1 chloride-triethylamine is not expected to proceed via a sulfene intermediate as previously proposed [99]. Again, a carbanion intermediate accounts nicely for the experimental facts. The electrophihcity of the hetero-l,3-diene is exdemely high, therefore the carbanion, formed on reaction of triethylamme with methanesulfonyl chloride, should undergo nucleophilic attack at C-4 of the hetero-1,3-diene faster than sulfene formabon by chloride elimination. 

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,... 

Cycloaddition reactions where bis(trifluoromethyl)-substituted hetero-1,3-dienes act as dienophiles have been descnbed for open-chain and cyclic dienes [115, 126, 127] The balance of the diene -dienophile activity of bis(tnfluoro-methyl)-substituted hetero-l,3-dienes can be influenced strongly by the substituents bonded to the inuno nitrogen atom For instance, A/-(arylsulfonyl) denvatives of tnfluoroacetaldimine and hexafluoroacetone imine do not act as dienes but exhibit only the dienophile reactivity of electron deficient imines [5 229, 234,235, 236 237] (equation 52)... 

Other advances include the construction of seven- and nine-membered rings via the analogous [4-1-3] and [6-1-3] cycloadditions with dienes and trienes respectively. Heterocycles, such as tetrahydrofurans and pyrrolidines, are accessible using carbonyl compounds and imines as substrates. The following discussion is organized around these recent discoveries. It serves to illustrate the versatility and the high degree of selectivity which are some of the distinctive features of the Pd-TMM chemistry. 

The assumed transition state for this reaction is shown in Scheme 5.5. The two bulky t-butoxy groups are expected to locate at the two apical positions. One of the 3,3 -phenyl groups would effectively shield one face of an imine, and consequently, a diene attacks from the opposite side. Judging from this model, similar selectivities were expected in the Mannich-type reactions of imines with silyl eno-lates. Actually, when ligand 10 was used in the reaction of imine la with S-ethyl-thio-l-trimethylsiloxyethene, the corresponding / -amino thioester was obtained in 84% ee (Scheme 5.6). As expected, the sense of the chiral induction in this case was the reverse of that observed when using catalyst 6 [12, 25]. 

Polymer-supported BINOLs thus prepared were treated with Zr(Ot-Bu)4 to form polymer-supported zirconium 20. In the presence of 20 mol% of various zirconium 20, the model aza Diels-Alder reactions of imine Id with Danishefsky s diene (7a) were performed results from selected examples are shown in Table 5.8. Whereas the 4-t-butylphenyl group resulted in lower enantiomeric excess (ee), higher ee were obtained when 3,5-xylyl, 4-biphenyl, 4-fluorophenyl, and 3-tri-... 

For imines, a-imino esters with an N-p-methoxyphenyl substituent (21b) also reacted with Danishefsky s diene in the presence of 10 mol% of CUCIO4-T0I-BINAP to give the corresponding adduct in high yield with good enantiomeric excess (Scheme 5.10). Remarkably, reverse enantioselectivity was observed when the a-imino esters 21a and 21b were used. This notable selectivity was explained by as-... 

The ring expansions of cydohexadiene derivatives to azepines is of historical significance, as the first example of a monocyclic 1//-azepine was obtained by cyanide ion attack on 2-acetoxy-2,4,6-trimethyl-iV-(phenylsulfonyl)cyclohexa-3,5-dien-l-imine (4) 17 however, it was almost twenty years before the product was correctly formulated as the l//-azepine 5.24... 

The diastereofacial selectivity of this asymmetric [3C+2S] process is explained following a model similar to that described in Sect. 2.6.4.4 for the reaction of chiral alkenylcarbene complexes and 1,3-dienes. Thus, the proposed mechanism that explains the stereochemistry observed assumes a [4+2] cycloaddition reaction between the chromadiene system and the C=N double bond of the imine. The necessary s-cis conformation of the complex makes the imine... 

Bronsted-acid-catalyzed Diels-Alder reactions are not frequent because of the proton sensitivity of many dienes and cycloadducts, especially when long reaction times and high temperatures are required. Examples in aqueous medium involving imines activated by protonation as dienophiles and a proton-promoted Diels-Alder reaction of glyoxylic acid with cyclopentadiene are considered in Section 6.1. 

Lanthanide triflates catalyze the Diels-Alder reaction of imines, generated from anilines and aldehydes, with both dienes and alkenes [26]. Thus N-benzyl-ideneaniline in the presence of Yb(OTf)3 (Scheme 6.16) reacts in organic solvent with open-chain dienes, such as Danishefsky s diene, to give tetrahy-dropyridine derivatives, while with cyclopentadiene and vinylethers and vinylthioethers it works like azadiene in both organic solvent and aqueous medium, affording tetrahydroquinoline derivatives. 

In contrast LP-DE gives disappointing results for intramolecular imino Diels-Alder reactions, even in the presence of CSA. This is due to the fact that weak acids become strong acids in highly polar media such as 5.0m LP-DE and the protonation of diene, with concomitant diene isomerization, competes with cycloaddition [42]. This observation was supported by using trifluoroacetic acid (TEA). The imine 33 (Scheme 6.21) in LP-DE at room temperature in the presence of TEA gave a 1 1 mixture of cycloadduct 34 and the isomerized diene 35 within the unreacted imine 33. No Diels-Alder cycloadduct 36 was detected. 

The reactive compound chlorosulfonyl isocyanate (ClSOaNCO, forms P-lactams even with unactivated alkenes, as well as with imines, allenes, conjugated dienes, and cyclopropenes. With microwave irradiation, alkyl isocyanates also... 

The use of chiral bis(oxazoline) copper catalysts has also been often reported as an efficient and economic way to perform asymmetric hetero-Diels-Alder reactions of carbonyl compounds and imines with conjugated dienes [81], with the main focus on the application of this methodology towards the preparation of biologically valuable synthons [82]. Only some representative examples are listed below. For example, the copper complex 54 (Scheme 26) has been successfully involved in the catalytic hetero Diels-Alder reaction of a substituted cyclohexadiene with ethyl glyoxylate [83], a key step in the total synthesis of (i )-dihydroactinidiolide (Scheme 30). 

N-silylated imines 509 react with the Li salts of tosylmethylisonitriles to give 4,5-disubstituted imidazoles in moderate yields [93]. Acetylation of N-trimethylsilyl imines 509 with acetyl chloride and triethylamine affords 72-80% of the aza-dienes 510 these undergo readily Diels-Alder reactions, e.g. with maleic anhydride at 24 °C to give 511 [94] or with dimethyl acetylenedicarboxylate to give dimethyl pyridine-3,4-dicarboxylates [94] (Scheme 5.29). 

An unusual [4+1] cycloaddition gold-catalysed reaction between propargyl tosylates 102 and imines 103 led to the formation of eyclopent-2-enimines 104 (Scheme 5.27) [27], A possible mechanism for this reaction involves a 1,2-migration of the tosylate that generates the 1,3-diene 105 followed by a Nazarov-hke cyclisation. 

In addition, the same group has used copper complexes of these ligands as efficient catalysts for enantioselective Cu-catalysed aza-Diels-Alder reactions of A-sulfonyl imines with Danishefsky s dienes, providing the corresponding six-membered heterocycles with enantioselectivities of up to 80% ee. ... 

As in the case of Diels-Alder reactions, aqueous aza-Diels-Alder reactions are also catalyzed by various Lewis acids such as lanthanide triflates.113 Lanthanide triflate-catalyzed imino Diels-Alder reactions of imines with dienes or alkenes were developed. Three-component aza-Diels-Alder reactions, starting from aldehyde, aniline, and Danishefsky s diene, took place smoothly under the influence of HBL4 in aqueous media to afford dihydro-4-pyridone derivatives in high yields (Eq. 12.46).114... 

Similar aza-Diels-Alder reactions of Danishefsky s diene with imines or aldehydes and amines in water took place smoothly under neutral conditions in the presence of a catalytic amount of an alkaline salt such as sodium triflate or sodium tetraphenylborate to afford dihydro-4-pyridones in high yields (Eq. 12.49).117 Antibodies have also been found to catalyze hetero-Diels-Alder reactions.118... 

---