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1.
Bromination of 3-bromofuro[2,3-b]- 1a , -[3,2-b]- 1b and - [3,2-c]pyridine 1d afforded the 2,3-dibromo derivatives 2a, 2b and 2d , while the -[2,3-c]- compound 1c did not give the dibromo derivative. Nitration of 1a-d gave the 2-nitro-3-bromo compounds 3a-d . The N-oxides 4a-d of 1a-d were submitted to the cyanation with trimethylsilyl cyanide to yield the corresponding α-cyanopyridine compound 6a-d . Chlorination of 4a and 4d with phosphorus oxychloride gave mainly the chloropyridine derivatives 7a, 7′a and 7d , while 4b and 4c gave mainly the chlorofuran derivatives 7′b and 7′c accompanying formation of the chloropyridine derivatives 7b, 7′b and 7c . Acetoxylation of 4a and 4b with acetic anhydride yielded the acetoxypyridine compounds 8a, 8′a and 8b , while 4c and 4d gave the acetoxypyridine 8′c, 8′d and 8′d , pyridone 8c and 8d , acetoxyfuran 8′c and dibromo compound 9c and 9′c.  相似文献   

2.
This paper describes the preparation and hydrolysis of 2-cyano and 3-cyano derivatives of furo[3,2-b]-, furo[2,3-c]- and furo[3,2-c]pyridine. Treatment of furopyridines 1a , 1b and 1c with n-butyllithium in hexane-tetrahydrofuran at -70° and subsequent addition of N,N-dimethylformamide yielded 2-formyl derivatives 2a , 2b and 2c. Dehydration of the oximes 4a , 4b and 4c of 2a , 2b and 2c gave 2-cyano compounds 5a , 5b and 5c , which were hydrolyzed to give 2-carboxylic acids, 6a, 6b and 6c , respectively. Reaction of 3-bromo compounds 7a , 7b and 7c with copper(I) cyanide in N,N-dimethylformamide afforded 3-cyano derivatives 8a , 8b and 8c. Alkaline hydrolysis of 8a , 8b and 8c gave compounds formed by fission of the 1-2 bond of furopyridines 9a , 9b and 9c , while acidic hydrolysis gave the corresponding carboxamides, 10a , 10b and 10c.  相似文献   

3.
Bromination of 2-methylfuropyridines 1a-d-Me gave the 3-bromo derivatives 2a-d , while the 2-cyano compounds 1a-d-CN resulted in the recovery of the starting compounds. Nitration of 1a-d-Me and 1a-d-CN did not yield the corresponding nitro derivative, except for 1-c-CN giving 3-nitro derivative 3c in 7% yield. N-Oxidation of 1a-d-Me and 1b-d-CN with m-chloroperbenzoic acid yielded the N-oxides 4a-d-Me and 4b-d-CN , whereas 1a-CN did not afford the N-oxide. Cyanation of N-oxides 4a-d-Me and 4b-d-CN with trimethylsilyl cyanide gave the corresponding α-cyanopyridine compounds 5a-d-Me and 5b-d-CN . Chlorination of 4a-d-Me and 4b-d-CN with phosphorus oxychloride also gave the α-chloropyridine compounds 6b-d-Me and 6b-d-CN , accompanying formation of γ-chloropyridine 6a-Me, 6′b-Me and 6′b-CN , β-chloropyridine 6′b-CN , and α'-chloropyridine derivatives 6′c-Me and 6′c-CN . Acetoxylation of 4a-d-Me and 4b-d-CN with acetic anhydride yielded α-acetoxypyridine compounds 7a-Me and 7b-CN , pyridone compounds 11d-Me, 11c-CN and 11d-CN , 3-acetoxy compounds 8, 9b, 9c , and 2-acetoxymethyl derivatives 10b and 10c.  相似文献   

4.
Nitration of 2,3-dihydrofuro[3,2-b]- N-oxide 3b and -[2,3-c]pyridine N-oxide 3c afforded the nitropyridine compounds 4b, 5b and 6 from 3b and 4c, 5c, 5′c and 7 from 3c , while -[2,3-b]- N-oxide 3a and -[3,2-c]pyridine N-oxide 3d did not give the nitro compound. Chlorination of 3b and 3c with phosphorus oxychloride yielded mainly the chloropyridine derivatives 15b, 15′b from 3b and 15c and 15′c from 3c , whereas 3a and 3d gave pyridine derivatives formed through fission of the 1–2 ether bond of the furo-pyridines 13a , 14 and 13d . Acetoxylation of 3b and 3c gave 3-acetoxy derivatives 18b and 18c and the parent compound 1b and 1c . Acetoxylation of 3a yielded compounds formed through fission of the 1–2 bond 16 and 17 and 3d gave furopyridones 19 and 19 ′. Cyanation of 3b and 3c yielded mainly the cyanopyridine compounds 20b, 20c and 20′c . Cyanation of 3a and 3d gave the cyanopyridine compounds 20a , 20d and 20′d accompanying formation of the pyridine derivatives 21a, 21d and 21′d .  相似文献   

5.
Reaction of ethyl 3-ethoxycarbonylmethoxyfuropyridine-2-carboxylates 2a-2d with sodium ethoxide afforded 3-ethoxy derivatives 3a-3d which converted to 3-ethoxyfuropyridines 5a-5d by hydrolysis and decarboxylation of the ester group. Vilsmeier reaction of 5a and 5b gave 2-formyl-3-ethoxy derivatives 6a and 6b and 2-formyl-3-chloro derivatives 7a and 7b , while 5c and 5d did not give any formyl compound. Bromination of 3-ethoxyfuropyridines with 1 equivalent mole of bromine gave 2-bromo-3-ethoxyfuropyridines 9a-9d , whereas reaction with 3 equivalents of bromine yielded 2,2-dibromo-3,3-diethoxy-2,3-dihydrofuropyridines ( 10a and 10b ) and/or 2-bromo-3,3-diethoxy-2,3-dihydrofuropyridines 11b , 11c and 11d . Treatment of compounds 5a-5d with n-butyllithium in hexane-tetrahydrofuran at ?70° and subsequent addition of N,N-dimethylformamide yielded 2-formyl derivatives 6a-6d .  相似文献   

6.
This paper describes the synthesis of four tricyclic heterocycles, furo[2,3–6:4,5-c']- ( 5a ), furo[3,2-b:4,5-c']- ( 5b ), furo[2,3-c:4,5-c']- ( 5c ) and furo[3,2-c:4,5-c']dipyridine ( 5d ). Starting with 2-formylfuropyridines ( 1a-d ), β-(2-furopyridyl)acrylic acids 2a-d were obtained by condensing with malonic acid. The acrylic acids were converted to the acid azides by reaction with ethyl chloroformate and the subsequent reaction with sodium azide. Heating of the acid azides at 230–240° with diphenylmethane and tributylamine gave tricyclic pyridinones 3a-d , which were converted to the respective chloro derivatives 4a-d by reaction with phosphorus oxychloride. Reduction of the chloro compounds over palladium-charcoal yielded compounds 5a-d respectively. All the compounds 2 to 5 were characterized by elemental analysis and spectral data. The H and 13C nmr and electronic spectral features of the furodipyridines were discussed comparing with those of the parent furopyridines.  相似文献   

7.
This paper describes reactions of 3-bromo- 1a-d , 2-phenylthio- 5a-d and 2-phenylthio-3-bromofuropyridines 6a-d with n-butyl-, t-butyl- and methyllithium and lithioacetonitrile. Lithiation of compounds 1a-d with n-butyl- or methyllithium gave the parent furopyridines 2a-d and o-ethynylpyridinols 3a-d. Reaction of compounds 5a-d with methyllithium afforded o-(phenylthioethynyl)pyridinols 7a-d , which were also yielded by reaction of compounds 6a-d with t-butyl- or methyllithium. The phenylthio group in compounds 7a-d were substituted with t-butyl group by the reaction with excess t-butyllithium. In contrast, 2-phenylthio group in compounds 5a-d and 6a-d was substituted with cyanomethyl group by reaction with lithioacetonitrile to give compounds 11a-d and 10b, c respectively.  相似文献   

8.
Lithiation of 2-methylfuro[2,3-b]- 1a , -[2,3-c]- 1c and -[3,2-c]pyridine 1d with lithium diisopropylamide at ?75° and subsequent treatment with deuterium chloride in deuterium oxide afforded 2-monodeuteriomethyl compounds 2a, 2c and 2d , while 2-methylfuro[3,2-b]pyridine 1b gave a mixture of 1b, 2b , 2-methyl-3-deuteriofuro[3,2-b]pyridine 2′b and 2-(1-proynyl)pyridin-3-ol 5 . The same reaction of 1a at ?40° gave 3-(1,2-propadienyl)pyridin-2-ol 3 and 3-(2-propynyl)pyridin-2-ol 4 . Reaction of the lithio intermediates from 1a, 1c and 1d with benzaldehyde, propionaldehyde and acetone afforded the corresponding alcohol derivatives 6a, 6c, 6d, 7a, 7c, 7d, 8a, 8c and 8d in excellent yield; while the reaction of lithio intermediate from 1b gave the expected alcohols 6b and 8b in lower yields accompanied by formation of 3-alkylated compounds 9, 11, 12 and compound 5 . While reaction of the intermediates from 1a, 1b and 1d with N,N-dimethylacetamide yielded the 2-acetonyl compounds 13a, 13b and 13d in good yield, the same reaction of 1c did not give any acetylated product but recovery of the starting compound almost quantitatively.  相似文献   

9.
Acetoxylation of N-oxide of furo[2,3-b]- 2a , -[3,2-b]- 2b , -[2,3-c]- 2c and -[3,2-c]pyridine 2d with acetic anhydride afforded compounds substituted normally at the α- or γ-position to the ring nitrogen, 3a, 4a, 4b, 3d, 4d, 8 and 9 , and in addition compounds substituted on the furan ring, 5a, 6a, 5b, 6b, 7b, 5c and 7c which were unexpected compounds. The structures of these compounds were established from the ir, nmr and mass spectra, and x-ray crystal analysis of 5b .  相似文献   

10.
The preparation of 2-aminomethyl- 3a-d , 2-acetamidomethyl- 4a-d , 2-N,N-dimethylaminomethyl- 5a-d , 2-(1-hydroxy-2-nitroethyl)- 6a-d , 2-(1-hydroxyl-2-aminoethyl)- 7a-d and 2-(1-hydroxy-2-N,N-dimethylaminoethyl)- 8b-d derivatives of furo[2,3-b]-, furo[3,2-b]-, furo[2,3-c]- and furo[3,2-c]pyridine is described.  相似文献   

11.
The N-oxide 2 of furo[3,2-b]pyridine ( 1 ) was cyanated by the Reissert-Henze reaction with potassium cyanide and benzoyl chloride to give 5-cyano derivative 3 , which was converted to the carboxamide 4 , carboxylic acid 5 , ethyl ester 6 and ethyl imidate 8 . Chlorination of 2 with phosphorus oxychloride yielded 2-9a , 3- 9b , 5- 9c and 7-chloro derivative 9d . Reaction of 9d with sodium methoxide, pyrrolidine, N,N-dimethylformamide and ethyl cyanoacetate afforded 7-methoxy- 10 , 7-(1-pyrrolidyl)- 11 and 7-dimethylaminofuro[3,2-b]pyridine ( 14 ) and 7-(1-cyano-1-ethoxy-carbonyl)methylene-4,7-dihydrofuro[3,2-b]pyridine ( 12 ). Nitration of 2 with a mixture of fuming nitric acid and sulfuric acid gave 2-nitrofuro[3,2-b]pyridine N-oxide ( 15 ).  相似文献   

12.
The boron trifluoride catalyzed 1,4-addition of 2,3-dihydro-5-methylfuran to N-(p-methoxy-benzylidene)-1,4-benzodioxan-6-amine (II) gave 2 pairs of epimers, 2,3,3a,4,5,8,9,11b-octahydro-4-(p-methoxyphenyl)-11b-methyl-p-dioxino[2,3-g]furo[3,2-c]quinoline (IIIa and b) and 2,3,7,8,8a,9.10,1la-octahydro-8-(p-methoxyphenyl)-11a-methyl-p-dioxino[2,3-f]furo[3,2-c]quinoline (IVa and b). When N-(p-methoxybenzylidene)-3,4-methylenedioxyaniline (V) was condensed with 2,3-dihydro-5-methylfuran in an analogous manner, a mixture of 2 epimers of 2,3,3a,4,5,10b-hexahydro-4-(p-methoxyphenyl)-10b-methyl[1,3]dioxolo[4,5-g]furo[3,2-c]quinoline (VIa and b) was isolated. Treatment of this mixture with sulfur afforded 6-(p-methoxyphenyl)-8-methyl-1,3-dioxolo[4,5-g]quinoline-7-ethanol (VIII). Structural assignments for all of the products were made from NMR spectra. None of the compounds possessed appreciable biological activity.  相似文献   

13.
Furo[3,2-c]-( 1a ), -[2,3-c]- ( 1b ) and -[3,2-b]pyridine ( 1c ) were reacted with isopropyl chloroformate and trimethyl phosphite to give dimethyl 5-isopropoxycarbonyl-4,5-dihydrofuro[3,2-c]pyridine-4-phosphonate ( 2a ), dimethyl 6-isopropoxycarbonyl-6,7-dihydrofuro[2,3-c]pyridine-7-phosphonate ( 2b ) and dimethyl 4-isopropoxycarbonyl-4,7-dihydrofuro[3,2-b]pyridine-7-phosphonate ( 2c ) as unstable syrups. Reaction of 2b and 2c with n-butyllithium and then with benzaldehyde, p-methoxybenzaldehyde, p-cyanobenzalde-hyde or propionaldehyde afforded the normal Wittig reaction products 5b-H, 5b-OMe, 5b-CN, 5b-Et, 5c-H, 5c-H, 5c-OMe and 5c-CN , except for 2b with propionaldehyde. While, the same reactions of compound 2a and the reaction of 2b with propionaldehyde afforded the unexpected products, 5-isopropoxycar-bonylfuro[3,2-c]pyridinio-4-aryl-(or ethyl)methoxides 3a-H, 3a-OMe, 3a-CN and 3a-Et , 4-(1′-aryl(or ethyl)-1′-hydroxymethyl)furo[3,2-c]pyridines 4a-H, 4a-OMe, 4a-CN and 4a-Et accompanying formation of the normal products. Treatment of the normal Wittig reaction products with lithium diisopropylamide and then with acetone gave the derivatives alkylated at the 2-or the benzylic positions.  相似文献   

14.
Furo[2,3-b:4,5-c‘]- 1a , -[3,2-b:4,5-c’]- 1b , -[2,3-c:4,5-c‘]- 1c and -[3,2-c:4,5-c’]dipyridine 1d were derived to the N-oxides 2a-d , N‘-oxides 2′b , 2′c or N,N’-dioxide 3b-d by N-oxidation with m-chloroperbenzoic acid. Chlorination of these N-oxides, N′-oxide and N,N′-dioxides with phosphorus oxychloride afforded compounds chlorinated at the α-position(s) to the ring nitrogen 4a-d , 4′c , 14b-d and 14′b . Acetoxylation of N-oxides 2a-d and 2′c with acetic anhydride gave the corresponding pyridone compounds 6a-d and 6′c in good yields, while the acetoxylation of N,N′-dioxides gave a complex mixture from which no compound could be isolated. Cyanation of 2a-d, 2′c and 3b-d with trimethylsilyl cyanide yielded the cyano compounds 7a-d , 7′c , cyano-N-oxides 15b-d and dicyano compounds 15′c and 15′d . Monocyano compounds 7a-d and 7′c were converted to the imino esters 8a-d and 8′c by treatment with sodium ethoxide. Imino esters were derived to the carboxylic esters 9a-d and 9′c , from which the corresponding alde hydes 10a-d and 10′c were obtained by reduction with diisobutylaluminum hydride. Dicyanide 15′c was converted to dialdehyde 19 by the treatment with sodium ethoxide, and the subsequent hydrolysis of the imino ester and reduction of the carboxylic ester with diisobutylaluminum hydride.  相似文献   

15.
Chlorination of the N-oxides of furo[2,3-b]- 1a , -[2,3-c]- 1b and -[3,2-c]pyridine 1c with phosphorus oxychloride afforded compounds substituted normally at the α- or λ-position to the ring nitrogen, 2a, 2′a, 2b, 2c, 2′c and 2′c , and in addition, in the case of 1b , compounds substituted on the furan ring, 2′b and 2″b . The structures of these compounds were confirmed from their ir, nmr and mass spectra. The major chlorinated products 2a, 2b and 2c were converted to methoxy- 5a, 5b and 5c , N-pyrrolidyl- 7a, 7b and 7c , and phenylthiofuropyridines 8a, 8b , and 8c .  相似文献   

16.
The boron trifluoride catalyzed 1,4-addition of 2,3-dihydro-5-methylfuran to N-(p-methoxybenzylidene)-5-indanamine (VI) gave 2 pairs of epimers, dl-3,3a,4,5,7,8,9,10b-octahydro-4-(p-methoxyphenyl)-10b-methyl-2H-cyclopenta[g]furo[3,2-c]quinoline (VIIa and b) and dl-3,3a, 4,-5,8,9,10,10c-octahydro-4-(p-methoxyphenyl)-10c-methyl-2H-cyclopenta[f]furo[3,2-c]quinoline (VIIIa and b). When 4-(benzylideneamino)-1-naphthol (IXa) was condensed with 2,3-dihydro-5-methylfuran in an analogous manner, a mixture of two isomers of dl-1,2,2a,3,4,5a-hexahydro-5a-methyl-2-phenylbenzo[h]furo[3,2-c]quinolin-7-ol [Xa and b (R ? H)] was obtained. Likewise, 4-[(p-hydroxybenzylidene)amino]-1-naphthol (IXb) and 4-(p-methoxybenzylidene)amino]-1-naphthol (IXc) gave a mixture of two isomers of dl-1,2,2a,3,4,5a-hexahydro-2-(p-hydroxyphenyl)-5a-methylbenzo[h]furo[3,2-c]quinolin-7-ol [Xa and b (R ? OH)] and dl-1,2,2a,3,4,5a-hexahydro-2-(p-methoxyphenyl)-5a-methylbenzo [h]furo[3,2-c]quinolin-7-ol [Xa and b (R ? OCH3)], respectively. The condensation of N-(p-methoxybenzylidene)-5-acenaphthenamine (XI) with 2,3-dihydro-5-methylfuran afforded a mixture of two isomers of dl-2,3,3a,4,5,9,10,-11b-octahydro-4-(p-methoxyphenyl)-11b-methylfuro[3,2-c]indeno[1,7-gh]quinoline (XIIa and b). Structural assignments for all of the products were made from NMR spectra. None of these compounds possessed appreciable biological activity.  相似文献   

17.
This paper describes the synthesis and chemical properties of some 2- and 3-substituted furo[2,3-b]pyridines. Reaction of ethyl 2-chloronicotinate 1 with sodium ethoxycarbonylmethoxide or 1-ethoxycarbonyl-1-ethoxide gave β-keto ester 2 or ketone 5 , respectively. Ketonic hydrolysis of 2 afforded ketone 3, from which furo[2,3-b]pyridine 4 was obtained by the method of Sliwa. While, 2-methyl derivative 7 was prepared from 5 by reduction, O-acetylation and the subsequent pyrolysis. Reaction of ketone 3 with methyllithium gave tertiary alcohol 8 which was O-acetylated and pyrolyzed to give 3-methyl derivative 9 . Formylation of 4 , via lithio intermediate, with DMF yielded 2-formyl derivative 10 , from which 7 , was obtained by Wolff-Kishner reduction. Dehydration of the oxime 11 of 10 gave 2-cyano derivative 12 , which was hydrolyzed to give 2-carboxylic acid 13 . Reaction of 3-bromo compound 14 with copper(I) cyanide gave 3-cyano derivative 15 . Alkaline hydrolysis of 15 afforded compound 16 and 17 , while acidic hydrolysis gave carboxamide 18 . Reduction of 15 with DIBAL-H afforded 3-formyl derivative 19 . Wolff-Kishner reduction of 19 gave no reduction product 9 but hydrazone 20 . Reduction of tosylhydrazone 21 with sodium borohydride in methanol afforded 3-methoxymethylfuro[2,3-b]pyridine 22 .  相似文献   

18.
The nitration and bromination of both [1]benzothieno[3,2-d]pyrimidin-4(3H)one ( 1 ) and [1]benzothieno-[3,2-d]pyrimidine ( 2 ) has been studied. Nitration of 1 at ?30° afforded a mixture of 8-nitro[1]benzothieno-[3,2-d]pyrimidin-4(3H)one ( 7b ) (70%) and 6-nitro[1]benzothieno[3,2-d]pyrimidin-4(3H)one ( 7a ) (30%). However when the nitration was carried out at 60°, the 6,8-dinitro derivative 8 was the result. On the contrary, the nitration of 2 at ?30° gave a single nitration product, 8-nitro[1]benzothieno[3,2-d]pyrimidine ( 11 ). The bromination of both 1 and 2 gave the corresponding 8-bromo derivatives 10 and 13 . Assignment of structure of all the products was based on ir and nmr spectral studies and on unequivocal syntheses.  相似文献   

19.
Nitration of naphtho[2,3-c][1,2,5]thiadiazole gives the 5-nitro derivative in 61–66% yield. Chlorination of this product apparently gives an unstable addition product which loses hydrogen chloride on recrystallization to give 4-chloro-8-nitronaphtho[2,3-c][1,2,5]thiadiazole. Thus, naphtho[2,3-c][1,2,5]thiadiazole under nitrating conditions behaves as a 2-substituted naphthalene rather than as an anthracene analog.  相似文献   

20.
Cyanation of furo[2,3-b]-, -[2,3-c]- and -[3,2-c]pyridine N-oxides 1a, 1b and 1c by the Reissert-Henze method, reaction with benzoyl chloride and trimethylsilyl cyanide in dichloromethane and the reaction with trimethylsilyl cyanide and triethylamine in acetonitrile afforded 6-cyanofuro[2,3-b]- 2a , 7-cyanofuro[2,3-c]- 2b and 4-cyanofuro[3,2-c]pyridine 2c in moderate to excellent yield. The cyano group in 2a, 2b and 2c was converted to carboxamides 3a, 3b and 3c , ethyl imidates 5a, 5b and 5c and ethyl carboxylates 6a, 6b and 6c . Reaction of the N-oxides with trimethylsily bromide in acetonitrile gave the deoxygenated furopyridine 7a and 7d , bifuropyridyl 8b and 8c , and the N-oxide 9 of 8c .  相似文献   

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