Ynamines reactions

Interestingly, the triafulvene exhibits ambiguous behavior toward ynamines. Reactions of triafulvene derivative 357 with ynamine 367 by [2-E2] cycloaddition and subsequent fragmentation gave the fulvene derivative 370. In contrast, reaction of calicene 371 with ynamine 367 yielded the naphthalene derivative 374 by... 

The imonium salt (199), obtained from ynamines and phosgeneimonium chloVide, underwent ready reaction with monosubstituted hydrazines to give the 3,5-bis(dimethyl-amino)pyrazole (200) (68T4217, 69T3453). Similarly, the adduct (201), resulting from the addition of phosgene to ynamines, likewise reacted with sym-disubstituted hydrazines to give pyrazoles (202). With hydroxylamine derivatives the isoxazolinone (203) was obtained. 

Diazoalkanes and ynamines react with the electrophilic C(4)—C(5) double bond of pyrazolenine (359) to afford the cycloadducts (360) and (361), respectively, whereas diphenylketene yields the bicyclic diazetidinone (362) by reaction with the c/s-azo system of (359) (79CC568). 

Since 1,3-dipolar cycloadditions of diazomethane are HOMO (diazomethane)-LUMO (dipolarophile) controlled, enamines and ynamines with their high LUMO energies do not react (79JA3647). However, introduction of carbonyl functions into diazomethane makes the reaction feasible in these cases. Thus methyl diazoacetate and 1-diethylaminopropyne furnished the aminopyrazole (620) in high yield. 

Tungsten, tricarbonyleyelopentadienylhydrido-reaction with ynamines, 1, 666 Turpin reaction, 3, 1033 Tylophorine occurrence, 4, 478 synthesis, 4, 472, 475 Tylosin... 

The following compounds have been obtained from thiete 1,1-dioxide Substituted cycloheptatrienes, benzyl o-toluenethiosulfinate, pyrazoles, - naphthothiete 1,1-dioxides, and 3-subst1tuted thietane 1,1-dioxides.It is a dienophile in Diels-Alder reactions and undergoes cycloadditions with enamines, dienamines, and ynamines. Thiete 1,1-dioxide is a source of the novel intermediate, vinylsulfene (CH2=CHCH=SQ2). which undergoes cyclo-additions to strained olefinic double bonds, reacts with phenol to give allyl sulfonate derivatives or cyclizes unimolecularly to give an unsaturated sultene. - Platinum and iron complexes of thiete 1,1-dioxide have been reported. 

Bis(trifluoromethyl)-substituted pyrimidines are also available fromtrifluoro-acetonitrde on reaction with enamines and ynamines [d ] With dimethylami-nocrotonates, a cyclocondensation takes place to give 2-pyridones. 5-Cyano-6-trifluoromethyluracil is available via a similar route [95] (equation 18)... 

Aminocyclopropanes were prepared from enamines by the addition of Simmons-Smith reagent (688) or best through the cuprous-chloride-promoted decomposition of diazomethane (689). The reaction of an enamine with chloroform and base and opening of the resultant aminocyclopropane to an ynamine was reported (690). 

In these reactions, the formation of imidazoline and oxazoline rings corresponds to the reagent orientation previously observed for ynamines (84ZOR1648) and alkenylynamines (83ZOR926), as well as in their reactions with mononucleophiles such as amines (79ZOR1824 81ZOR1807) and alcohols (80ZOR1141). 

Thus, ynaminoketones with 1,2-diaminobenzene form benzodiazepines with retention of the dialkylamino group. The reaction occurs as a nucleophilic addition in the absence of catalysts. With Q, /3-acetylenic ketones 1,2-diaminobenzene reacts in the same manner, but under proton-catalyzed conditions (72LA24). At the same time, ynamines and enynamines furnish with 1,2-diaminobenzene substituted benzimidazoles as aresultof double attack at the acetylene bond(83ZOR926 84ZOR1648). 

Analogously to ynamines and o, /3-acetylenic ketones, 4-aminobut-3-yn-2-ones react with 1,3-dipoles (68HCA443 73HCA2427 92KGS867). The reaction of 4-dimethylaminobut-3-yn-2-one with diphenylketene follows a route of [2-1-21-cycloaddition (30°C, THF, 1 h) to give 2-acetyl-3-dimethylamino-4,4-diphenyl-cyclobut-2-en-l-one (377) in 15% yield. With ethyl azidoformate (30°C, THF, 3 h), the tiiazole 378 is formed in 82% yield, whereas with phenyl isocyanate, the quinoline 379 is the product (by a [2- -4] scheme) in 70% yield (68HCA443). 

In reactions of this type, the character of cyclization is determined by the ynamine moiety. The features of the heterocyclization of diverse ynaminocarbonyl compounds are generalized by the formation of the compounds 348,384, and 385 (92KGS867 00UK642). 

The hetero Diels-Alder [4+2] cycloaddition (HDA reaction) is a very efficient methodology to perform pyrimidine-to-pyridine transformations. Normal (NHDA) and Inverse (IHDA) cycloaddition reactions, intramolecular as well as intermolecular, are reported, although the IHDA cycloadditions are more frequently observed. The NHDA reactions require an electron-rich heterocycle, which reacts with an electron-poor dienophile, while in the IHDA cycloadditions a n-electron-deficient heterocycle reacts with electron-rich dienophiles, such as 0,0- and 0,S-ketene acetals, S,S-ketene thioacetals, N,N-ketene acetals, enamines, enol ethers, ynamines, etc. 

The reaction of several substituted imidazo[4,5-c/]-, pyrazolo[3,4-r/]- and triazolo[4,5-zf]pyrid-azines 3 with ynamines, in competition with [4 + 2] cycloaddition, leads to [2 + 2] derivatives 4, which rearrange to l,2-diazocines5.7 8 The reaction seems to be sensitive to the substituents, as replacement of the electron-withdrawing group R on the pyridazine ring of the pyrazolo compound (A = N, B = CH) by chlorine completely inhibits both the [4 + 2] and [2 + 2] cycloaddition reactions. The X-ray structure of the imidazo derivative 5 (R = Ms, A = CH, B = N) reveals a tub conformation of the eight-membered ring. 

A solution of 1-phenyl-1//-pyrazolo[3,4-rf]pyridazinc-7-carbonitrilc (150 mg. 0.68 mmol) and A,A-diethyl-prop-l-ynamine(151 mg, 1.36 mmol) in l,4-dioxane(2 mL) was refluxed for 5 h. After cooling, the reaction mixture was poured onto excess ice, and extracted with CHC13. The extract was washed with H20, dried (Na2S04) and concentrated under reduced pressure. Purification by chromatography (silica gel, benzene then bcnzene/EtOAc 20 1) gave, from the benzene eluate, 6-diethylamino-1 -phenyl-1 //-indazole-7-carbo-nitrile [yield 81 mg (39 %) mp 104-105 C (benzene/petroleum ether)] as slightly yellow prisms and, from the second eluate, the diazocine 5 as yellow needles yield 90 mg (40 %) mp 121-122 C (benzene/ petroleum ether). 

An important method for the synthesis of 1,3-diazocines consists of the reaction of pyrimidines 1 with ynamines to give [2 + 2] cycloadducts, which rearrange to the eight-membered-ring compounds 2 by valence tautomerization.2-3... 

The reaction is hindered by substitution in the 7-position, as revealed in the formation of 2e. Ynamine attack at the other imino moiety in the pyrimidine ring is even possible, which leads to 1,5-diazocines in an analogous reaction mechanism (cf. Section 1.5.). 

Some annulated pyrimidines react with ynamines via [2 + 2] cycloadducts to give 1,5-diazocine systems. The reaction strongly depends on the substitution pattern of the starting material and may also lead to 1,4-diazocine systems (see Section 1.3.1.2.).46,47... 

On the other hand, the known facts point to an alternative interpretation. The stereochemical course of the reaction may be explained in terms of a polar [2s + 2s] cycloaddition15 which is observed in reactions between very electron-poor and very electron-rich alkcnes. Namely, polar [2 + 2] cycloadditions usually proceed with high regioselectivity ( head to head ) and stereoselectivity under mild conditions33 35. This mechanism is also supported by the fact that a closely related reaction (between an ynamine and iminium salts) passes through a cyclic 4-membered intermediate36, which is probably the result of a polar [2 + 2] cycloaddition (see refs 10 and 37). 

As expected, 1 1 (2 + 2) cycloadducts are obtained in the reactions of thiete dioxides with some typical electron-rich olefins, e.g. enamines and ynamines, although this cycloaddition has not proven to be general190. 

The insertion reaction between alkenylcarbene complexes and electron-rich alkynes such as 1-alkynylamines (ynamines) leads to mixtures of two regioi-someric cyclopentyl derivatives [78]. Thus, if the insertion occurs on the carbon-metal bond a new aminocarbene complex is produced which evolves to a cyclopentenylmetal derivative. On the other hand, if the insertion reaction occurs on the carbon=carbon double bond of the alkenyl complex, the reaction gives a l-metala-4-amino-l,3,5-triene complex which finally generates a different regioisomer of the cyclopentenylmetal derivative (Scheme 31). 

The reaction is not limited to Z—CH2—Z compounds. Other acidic CH hydrogens, which include, for example, the methyl hydrogens of a-aminopyridines, the methyl hydrogens of ynamines of the form CH3CSCNR2 (the product in this... 

The reaction of 6-methyl-7-nitro-2-phenylindolizine with DMAD gives, not only the expected nitrocyclazine but the denitrocyclazine as the main product the latter is formed, presumably, by loss of HNOz from the primary cycloadduct <1997RCB609>. Also reaction of the same indolizine with the ynamine 350 gives, not the... 

The various transitions of triafulvenes to pentafulvenes achieved by addition of electron-rich double bonds is complemented by the reaction of triafulvenes with ynamines and yndiamines299, which gives rise to 3-amino fulvenes 539. This penta-fulvene type deserves some interest for its merocyanine-like inverse polarization of the fulvene system and its formation is reasonably rationalized by (2 + 2) cycloaddition of the electron-rich triple bond to the triafulvene C /C2 bond (probably via the dipolar intermediate 538) ... 

In the course of investigation of reactivity of the mesoionic compound 44 (Scheme 2) the question arose if this bicyclic system participates in Diels-Alder reactions as an electron-rich or an electron-poor component <1999T13703>. The energy level of the highest occupied molecular orbital (HOMO) and lowest unoccupied molecular orbital (LUMO) orbitals were calculated by PM3 method. Comparison of these values with those of two different dienophiles (dimethyl acetylenedicarboxylate (DMAD) and 1,1-diethylamino-l-propyne) suggested that a faster cycloaddition can be expected with the electron-rich ynamine, that is, the Diels-Alder reaction of inverse electron demand is preferred. The experimental results seemed to support this assumption. 

The betainic imidazo[l,2- 7][l,2,4]triazinium-olate 107 was found to react as a 1,3-dipole in 1,3-dipolar cycloaddition with ynamines to yield a bridged skeletone 108 <1999T13703> as shown in Scheme 15. This cycloadduct 108 underwent subsequent rearrangement upon heating, and resulted in formation of a fused eight-membered heterocycle 109. With acetylenes other than ynamines, the transformation was found to proceed slowly and in bad yields. The fact that ynamines were used successfully, as well as theoretical considerations (cf. Section 11.17.2) in this chapter, indicated that these Diels-Alder reactions are of inverse electron demand. 

In addition to reactions characteristic of carbonyl compounds, Fischer-type carbene complexes undergo a series of transformations which are unique to this class of compounds. These include olefin metathesis [206,265-267] (for the use as metathesis catalysts, see Section 3.2.5.3), alkyne insertion, benzannulation and other types of cyclization reaction. Generally, in most of these reactions electron-rich substrates (e.g. ynamines, enol ethers) react more readily than electron-poor compounds. Because many preparations with this type of complex take place under mild conditions, Fischer-type carbene complexes are being increasingly used for the synthesis [268-272] and modification [103,140,148,273] of sensitive natural products. 

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