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41.
Shunsaku Shiotani Masahide Kurosaki Katsunori Taniguchi Miwa Moriyama 《Journal of heterocyclic chemistry》1997,34(3):941-952
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
42.
Ando K Tsuji E Ando Y Kuwata N Kunitomo J Yamashita M Ohta S Kohno S Ohishi Y 《Organic & biomolecular chemistry》2004,2(4):625-635
Novel 3-acetoacetylaminobenzo[b]furan derivatives having a modified triene system at the 3-position were synthesized starting with 3-aminobenzo[b]furans. The enol isomers, 3-[(3-hydroxybut-2-enonyl)amino]benzo[b]furans (), of the 3-acetoacetylaminobenzo[b]furans were obtained as stable isomers owing to formation of a hydrogen bonding between the enol hydroxyl group and the amidocarbonyl group. The planarity of the C-2 substituent through the C-3 side chain suggested the existence of a modified conjugational triene system in the enol compound. Cysteinyl leukotriene 1 and 2 receptor antagonistic activities for these compounds were evaluated. 2-(4-Cyanobenzoyl or ethoxycarbonyl)-3-[(2-cyano-3-hydroxybut-2-enonyl)amino]benzo[b]furans (, ) were moderately active. 相似文献
43.
Seiji Yamaguchi Masahide Kurosaki Keiko Orito Hajime Yokayama Yoshiro Hirai Shunsaku Shiotani 《Journal of heterocyclic chemistry》1998,35(6):1237-1247
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
44.
Shunsaku Shiotani Youichi Tsukamoto Yasuyuki Kitagawa 《Journal of heterocyclic chemistry》1997,34(1):129-141
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
45.
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
46.
Robert I. McNeil Masaru Shiotani Ffrancon Williams Moon B. Yim 《Chemical physics letters》1977,51(3):433-437
The tetrafluoroethylene radical anion has been generated in solid solutions by electron addition to the parent molecule. Both its isotropic and anisotropic EPR spectra have been observed, including the isotropic 13C satellite lines in natural abundance. The isotropic EPR parameters are aF = 94.3 G, aC = 48.7 G, and g = 2.0027. Two possible geometries, planar and chair, are discussed for this radical anion. The magnitude of the 19F and 13C hyperfine coupling constants are consistent with a planar (D2h) structure provided that the unpaired electron occupies the 5b1u (σ*) rather than the 2b1g (π*) molecular orbital which is predicted by ab initio calculations to be the LUMO of the parent molecule. On the other hand, the EPR parameters do not rule out a chair (C2h) structure if the bending of the CF2 groups introduces only a small distortion from planarity. 相似文献
47.
Shunsaku Kimura 《ChemInform》2002,33(48):261-261
48.
Seiji Yamaguchi Keiko Orito Noriko Shimizu Katsunori Taniguchi Hideo Saitoh Masahide Kurosaki Hajime Yokoyama Yoshiro Hirai Shunsaku Shiotani 《Journal of heterocyclic chemistry》1999,36(1):81-94
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
49.
Shunsaku Kimura Yoshiko Miura Tomoyuki Morita Shiro Kobayashi Yukio Imanishi 《Journal of polymer science. Part A, Polymer chemistry》2000,38(Z1):4826-4831
Self‐assembled monolayers (SAMs) of helix peptides oriented vertically to a gold surface were prepared. Negative surface potentials of a few hundred millivolts were observed for the helix peptide SAMs when they were immobilized on gold through the N terminal of the peptides. However, positive surface potentials were generated in the helix peptide SAMs when the N terminal of the peptides was directed the opposite way. The large dipole moment of the helical peptide was thought to be the major factor for generation of the surface potential. The effect of the dipole moment on the electron transfer through the helix peptide SAMs was investigated. Photocurrent generation by photoexcitation of the N‐ethylcarbazolyl group of the peptide SAMs was accelerated by the dipole moment directed toward the gold substrate. Helical peptides were thus shown to be a suitable medium for electron transfer. © 2000 John Wiley & Sons, Inc. J Polym Sci A: Polym Chem 38: 4826–4831, 2000 相似文献
50.
Kazuya Kitagawa Tomoyuki Morita Megumi Kawasaki Shunsaku Kimura 《Journal of polymer science. Part A, Polymer chemistry》2003,41(22):3493-3500
Helical peptides having a disulfide group at one terminal, Lipo-(Leu-Aib)12-OBzl (Lipo and OBzl represent lipoic acid and benzyl ester, respectively, SSL24B), and Boc-NHCH2CH2NHCO-Fc-CO-Ala-(Leu-Aib)8-lipoamide (Boc, Fc, and lipoamide represent t-butyloxycarbonyl, ferrocene, and lipoamine, respectively, FcL16SS), were synthesized, and self-assembled monolayers (SAMs) of the helical peptides were prepared on gold. When the SSL24B SAM was observed at high-bias voltage by scanning tunneling microscopy (STM) under ultrahigh vacuum, bright spots with higher conductivity appeared in the STM image. The image was restored again to a homogeneous surface with lower bias voltage, suggesting that Au–S linkage should be reversibly changed to a conductive state. The current/voltage (I-V) curve by scanning tunneling spectroscopy (STS) at the bright domains demonstrated a rectification behavior where current increases drastically at a positive bias voltage above 3.0 V. However, the I-V curve of the FcL16SS SAM showed a current increase at negative bias voltage below −1.5 V. The redox group is, thus, a determining factor for the direction of this flow. However, STS at low-bias voltage and with the tip being inserted in the peptide SAM revealed a zero-conductance region in the I-V curve. The peptide layer may act as a molecular capacitor because of a large dielectric constant of the helical peptide. © 2003 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 41: 3493–3500, 2003 相似文献