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Enamines 2,3-dihydro

Cationic rings are readily reduced by complex hydrides under relatively mild conditions. Thus isoxazolium salts with sodium borohydride give the 2,5-dihydro derivatives (217) in ethanol, but yield the 2,3-dihydro compound (218) in MeCN/H20 (74CPB70). Pyrazolyl anions are reduced by borohydride to pyrazolines and pyrazolidines. Thiazolyl ions are reduced to 1,2-dihydrothiazoles by lithium aluminum hydride and to tetrahydrothiazoles by sodium borohydride. The tetrahydro compound is probably formed via (219), which results from proton addition to the dihydro derivative (220) containing an enamine function. 1,3-Dithiolylium salts easily add hydride ion from sodium borohydride (Scheme 20) (80AHC(27)151). [Pg.68]

Cook et al. 45) have studied the structure of the enamines of bicyclic ketones such as norbornanone. Acid-catalyzed condensation of norbornaiie withhexamethylenimineledto a 1 I mixture of the corresponding enamine (87) and its dihydro derivative (88),... [Pg.27]

The next seven references are cited not because of the experimental procedures described but because they indicate diversification in the types of enamines prepared and studied. Both Paquette (25) and Kasper 26) have condensed 2,5-methylene-l,2,5,6-tetrahydrobenzaldehyde (5-nor-bornene-2-carboxyaldehyde) (2) with several cyclic and open-chain aliphatic secondary amines. Kasper studied the ratio of endo to exo aldehyde formed upon hydrolysis of these enamines and the dihydro enamines. Paquette investigated the addition of sulfene to the enamines. -Fluoro-... [Pg.57]

A similar sequence of reactions takes place with the enamlnes of cyclic ketones (55-57) the initially formed unstable cyclobutene rearranges with insertion of two carbon atoms into the ring. A wide variety of cyclic ketones have been allowed to react in this way. For instance, the enamine (75) gave 76 on reaction with dimethyl acetylenedicarboxylate in refluxing toluene (55) and the heterocyclic enamine (77) obtained from dihydro-3-(2H)-... [Pg.130]

Arylation of enamines with p-benzoquinones takes a somewhat different course (70). The enamine (16) reacts exothermally with p-benzoquinone in benzene solution to give 2-(dimethylamino)-2,3-dihydro-3,3-dimethyl-5-benzofuranol (92). The reaction of enamines with quinone dibenzenesul-fonimide proceeds similarly (68). The product from the enamine (28) is the tetrahydrocarbazole derivative (93). [Pg.134]

Azides can use enamines as dipolarophiles for ],3 cycloadditions to form triazolines. These azides can be formate ester azides (186), phenyl azides (187-195), arylsulfony] azides (191-193,196), or benzoylazides (197,198). For example, the reaction between phenyl azide (138) and the piperidine enamine of propionaldehyde (139) gives 1 -phenyl-4-methy l-5-( 1 -piperidino)-4,5-dihydro-l,2,3-triazole (140), exclusively, in a 53% yield (190). None of the isomeric l-phenyl-5-methyl product was formed. This indicates that the... [Pg.244]

When the 1-monoximes or dioximes of 4-acetyl-l-tetralones are hydrogenated in the presence of palladium, mixtures of diastereoisomeric 1-aminotetralones are formed. The m-aminoketone isomers readily form dehydrobenzoisoquinuclideines (3,4-disubstituted-1,4-dihydro-1,4-ethano-isoquinolines). Quaternary immonium salts prepared from these bicyclic imines are then converted by bases to bicyclic enamines [2,4-disubstituted-3-alkylidene-1,4-ethano-1,2,3,4-tetrahydroisoquinolines (25)]. [Pg.256]

Dihydro- and 1,4-dihydro derivatives are formed as intermediates in the reduction of quaternary pyridine salts and their homologues with sodium borohydride or formic acid. A proton is added to the present enamine grouping and the formed immonium salts are reduced to the l-methyl-l,2,5,6-tetrahydropyridine derivatives (157) and to completely saturated compounds (158) (254) (Scheme 14). [Pg.288]

The reduction (136) of pyridinium compounds to 1,2- or 1,4-dihydro products with complex metal hydrides or dithionite leads to cyclic di-enamines of synthetic and biochemical interest. [Pg.327]

Dihydro-2/7- 74 and -4//-l,2-oxazines and thiazines 75 are interrelated by prototropy, being enamines and imines, respectively. In the case of oxazines, the imine form 75 is favored, and there are several well established examples of this system, including the parent heterocycle 75 (X = O) [84MI2]. No tautomeric equilibrium between the 2H and 4H forms has been observed under normal conditions in solution or in the solid state. However, the formation of intermediate 2H isomers 77 was proposed both for the conversion of 3-phenyl-5,6-dihydro-4//-l,2-oxazine 76 (R = Ph, r = R = H) into 2-phenylpyrrole(89TL3471) under strong basic conditions and for thermal decomposition of cyclopentene-fused 1,2-oxazine 76... [Pg.277]

Extension of this work by reacting 5-nitropyrimidine with 0,0-ketene acetals and with other cyclic and non-cyclic enamines showed that also with these electron-rich dienophiles the addition is regioselective and gives rise to the formation of 2-mono- or 2,3-disubstituted 5-nitropyridines (Scheme 30). Thus, reaction of 5-nitropyrimidine with the cyclic N,S-ketene acetals 4,5-dihydro-1 -methyl-2-methylthiopyrrole and 4,5,6,7-tetrahydro-1 -methyl-2-methylthioazepine gives in low yields 2,3-dihydro-1-methyl-5-nitropyr-olo[2,3-h]pyridine and the 5,6,7,8-tetrahydro-9-methyl-3-nitropyrido [2,3-Z)]azepine, respectively (89T2693) (Scheme 30). [Pg.52]

The dehydrogenation of 2,3-dihydro- and 2,5-dihydro-l//-l-benzazepines to 3//-l-benz-azepincs with heterocyclic enamines in the presence of boron trifluoride diethyl ether complex has been achieved in moderate yields (30-35%).241 In contrast, electrochemical oxidation of 2,5-dihydro-1 H- -benzazepines in buffered acetic acid solution furnishes initially 5//-l-benz-azepines in 35-45% yield.242... [Pg.229]

In a related study, the reaction of the enamine, l,2-dihydro-3-(2-methoxymethyl-l-pyrrolidin-yl)naphthalene [from 3,4-dihydro-2(l//)-naphthalenonc and (S)-2-(methoxymethyl)pyrrolidine] with 2-aryl-l-nitroethenes gave, after hydrolysis, an 83 17 to 95 5 mixture of the (3S,YR)- and (1/ ,1 T )-nitro ketones31. [Pg.1024]

Reaction of 1,3-dicarbonyl compounds with IVJV-dimethylformamide dimethyl acetal followed by malonamide in the presence of sodium hydride gives 5,6-disubstituted 1,2-dihydro-2-oxopyridine-3-carboxamides, whereas reaction of the intermediate enamines with cyanothioacetamide or cyanoacetamide in the presence of piperidine provides 2-thioxopyridine-3-carboxamides and 4,5-disubstituted l,2-dihydro-2-oxopyridine-3-carboxamides, respectively <95S923>. P-Enaminonitriles 14 react with p-ketoesters and alkyl malonates, in the presence of stoichiometric amounts of tin(IV) chloride, to afford 4-aminopyiidines 15 and 4-amino-2-pyridones 16 <95T(51)12277>. [Pg.225]

The first successful transformation of protoberberines to benzo[c]-phenanthridines was reported by Onda et al. (122,123). Irradiation of the enamines 200 and 195, the Hofmann degradation products of the corresponding protoberberines, in benzene afforded the initial photoproducts 201, which immediately rearranged to the tetrahydrobenzo[c]phenanthridines 202 in 70% yield (Scheme 37). Dehydrogenation of 202 afforded dihydro-chelerythrine (203) and dihydrosanguinarine (204), which were further oxidized with dichlorodicyanobenzoquinone (DDQ) to yield chelerythrine (205) and sanguinarine (206), respectively. [Pg.171]

Synthetic building blocks with latent 1,4-functionality like the 5,6-dihydro-4N-1,2-oxazine 8 are accessible in a [4+2]-cycloadditon of N-silylated enamine 7a and in situ generated nitrosoalkenes [6],... [Pg.65]

Pyrano[3,2 ]indolizines such as 120 can be prepared from the reaction of N-( 1 -benzotriazolylmethyl)indolines with 3,4-dihydro-2//-pyran under acidic or Lewis-acidic conditions (Equation 26) <2001T4933>, and a simpler analogue 122 is the end product of an annulation process starting from the enamine 121 and ethyl acrylate <1996H(43)1391> (Scheme 34). Pyrano[4,3-/]indolizinetriones, for example, 124, result from the hydrolysis of protected 2,3-dihydro-l//-indolizincdioncs 123 (Equation 27) <2000H(53)771>. [Pg.883]

A two-carbon ring expansion reaction of 5-membered cyclic enamines gave 6,7-dihydro-1 // azepines on reaction with dimethyl acetylenedicarboxylate <06ZN(B)385>. [Pg.441]

Diacyl triafulvenes yield with enamines the 6-amino-5,6-dihydro-6aH-cyclo-penta(b)furans 524 of structure type A/B, type B is only obtained from enamines... [Pg.104]

In Scheme 6.230, the multistep synthesis of 2,3-dihydro-4-pyridones is highlighted [411]. The pathway described by Panunzio and coworkers starts from a dioxin-4-one precursor, which is readed with 2 equivalents of benzyl alcohol under solvent-free microwave conditions to furnish the corresponding /1-diketo benzyl esters. Subsequent treatment with 1 equivalent of N,N-dimethylformamide dimethyl acetal (DMFDMA), again under solvent-free conditions, produces an enamine, which is then cyclized with an amine building block (1.1 equivalents) to produce the desired 4-pyridinone produds. All microwave protocols were conducted under open-vessel conditions using power control. [Pg.252]

The utilization of the Robinson annellation method for the synthesis of cory-nanthe-type alkaloids has been thoroughly investigated by Kametani and coworkers (149-152). The tetracyclic ring system was efficiently formed via the Michael addition of dimethyl 3-methoxyallylidenemalonate (247) to the enamine derived from 3,4-dihydro-1 -methyl-(3-carboline (150). Alkylation of 248, followed by hydrolysis and decarboxylation, resulted in a mixture of stereosiomeric enamides 250 and 251. Hydrogenation of 250 afforded two lactams in a ratio of 2 1 in favor of the pseudo stereoisomer 253 over the normal isomer 252. On the other hand, catalytic reduction of 251 gave 254 as the sole product in nearly quantitative yield. Deprotection of 254, followed by lithium aluminum hydride reduction, yielded ( )-corynantheidol (255) with alio relative configuration of stereo centers at C-3, C-15 and C-20. Similar transformations of 252 and 253 lead to ( )-dihydrocorynantheol and ( )-hirsutinol (238), respectively, from which the latter is identical with ( )-3-epidihydrocorynantheol (149-151.). [Pg.187]

The imine 217, formed from acetophenone and the 1-aminoimidazole, has been transformed into the enamine 218 which is then cyclized to 219 in trifluoroacetic acid (TFA) (Equation 40) <1995SC3271 >. The diaminoimidazole 220 reacts with ynone 221 to form 222 (Equation 41) <1998CHE1189>. Bromochalcones and chalcone dibromides can also be used in place of the ynone. Similar reactions have been used to prepare the dihydro analogues of 222 <1999CHE1207>. The reaction between 1-aminoimidazoles and 1,3-diketones has been extended to prepare bis-heterocyclic compounds, for example, 223 as ligands for transition metals (Equation 42) <2005EJI4382>. [Pg.571]

Fields et al. found one example of an alkene, 1,1-dimorpholino-ethylene, which did not give the expected cycloaddition product, the 12,12-dimorpholino-6,ll-dihydro-6,ll-ethanoacridizinium ion (10). They conjectured that the l-(2-pyridyl)-2-morpholinonaphthalene (12) isolated had been formed via the expected adduct (10) which had undergone loss of morpholine to form the enamine (11) which could undergo ring opening (via a retro-quaternization reaction) followed by loss of a proton to yield (12). [Pg.295]

Electron transfer reduction of pyridines in both acid and alkaline solution generates the protonated radical-anion. This rapidly accepts a further electron and a proton to give a mixture of dihydropyridines. Enamine structures in these dihydro-pyridines can tautomerise to the imine, which is more readily reduced than the original pyridine molecule. Further reaction of the 1,4-dihydropyridine leads to piperidine while reduction of the t, 2-dihydropyridine leads to a tetrahydropyridine in which the alkene group cannot tautomerise to the imine and which is not therefore reduced to the piperidine stage. The reaction sequence is illustrated for 2,6-dimethyl-pyridine 18 which yields the thermodynamically favoured cis-2,6-dimethylpiperidine in which the two alkyl substituents occupy equatorial conformations. [Pg.248]

Nicardipine Nicardipine, l,4-dihydro-2,6-dimethyl-4-(3-nitrophenyl)-methyl-2-[(methyl-phenylmethyl)-amino]ethyl ester 3,5-pirididincarboxylic acid (19.3.7), is synthesized in a manner analogous to the synthesis of nifedipine, the only difference being that in the Hantsch synthesis, two different )3-dicarbonyl compounds are used simultaneously with o-nitrobenzaldehyde. During this, one of these in the enamine form of acetoacetic ester is simultaneously used as an amine component. A heterocycUzation reaction is accomplished by reacting, the methyl ester of 8-aminocrotonic acid with the 2-methyl-2-benzyl-aminoethyl ester of acetoacetic acid [24-27]. [Pg.264]

The structures can be gathered from the formulas (in following tables, too). For structures above 328 see below in Section 4 (in following tables, too). And dihydro-248 (the enamine double bond was hydrogenated). [Pg.128]

An alternate precursor for achieving the same result may be (+)-reticuline (158), which would oxidize to quinone methide 168. Direct cyclization would result in an isopavine skeleton, whereas conversion to the enamine 167 would lead to a pavine. Similarly, a hydroxylation of the methide 168 at C-4 to furnish species 169 would either yield an isopavine by cyclization, or a pavine via the intermediacy of the 1,2-dihydro compound 167 (Scheme 37) (769). [Pg.376]


See other pages where Enamines 2,3-dihydro is mentioned: [Pg.169]    [Pg.796]    [Pg.796]    [Pg.3]    [Pg.260]    [Pg.95]    [Pg.9]    [Pg.204]    [Pg.278]    [Pg.271]    [Pg.78]    [Pg.319]    [Pg.296]    [Pg.184]    [Pg.267]    [Pg.55]    [Pg.153]    [Pg.140]    [Pg.283]    [Pg.59]   
See also in sourсe #XX -- [ Pg.27 ]




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