Three stable 4-substituted pyridine-based ruthenium(II)complexes[RuCl2(PPh3)L](L=4-R-2,6-bis (diethylaminomethylene)pyridine,R=Br,H or allyloxy)were synthesized.The catalytic activities of the complexes toward...Three stable 4-substituted pyridine-based ruthenium(II)complexes[RuCl2(PPh3)L](L=4-R-2,6-bis (diethylaminomethylene)pyridine,R=Br,H or allyloxy)were synthesized.The catalytic activities of the complexes toward transfer hydrogenation from alcohols to ketones were investigated.The electronic effects of the para-substituent in the pyridyl ring were probed and we found that the electron-donating group increased the catalytic activity.The result suggests that an electron-donating group is probably preferential for linking the catalytic ruthenium complex and the chemically inert supporting molecules such as a carbosilane dendrimer.展开更多
As benzoxazin-4-ones and quinazolines linked to indole nucleus acting as a good pharmacophore, the synthesis of these compounds has significant meaning. The key intermediates 2-(2', 5'-disubstituted-indol-2'-yl...As benzoxazin-4-ones and quinazolines linked to indole nucleus acting as a good pharmacophore, the synthesis of these compounds has significant meaning. The key intermediates 2-(2', 5'-disubstituted-indol-2'-yl)-4H-3, 1-benzoxazin-4-ones (3) were synthesized from cyclocondensation of indole-2-carbonyl chlorides (2) and anthranilic acid. Compound (3) on reaction with thiosemicarbazide and o-phenylene diamine afforded the compound (4) and (6) respectively. Compound (4) subjected to intramolecular cyclization under thermal conditions above its melting point afforded the compound (5). Similarly compound (3) on fusion with o- phenylene diamine gave compound (7). Structures of these compounds were confirmed by their spectral studies. The compounds were screened for their antimicrobial activity and the results were reported.展开更多
A novel method to prepare guanidine substituted aminoglycoside derivatives was developed.Free guanidine reacted with Cbz-protected aminoglycosides to produce guanidinylcarbonyl substituted derivatives.A methoxycarbony...A novel method to prepare guanidine substituted aminoglycoside derivatives was developed.Free guanidine reacted with Cbz-protected aminoglycosides to produce guanidinylcarbonyl substituted derivatives.A methoxycarbonyl-protected intermediate was isolated,and the mechanism of guanidinylcarbonyl modification was proposed.With this method,six per- or part-guanidylcarbonyl substituted aminoglycosides were successfully obtained in good yields.Their in vitro antibacterial activities were essayed.展开更多
基金Supported by the National Natural Science Foundation of China(20576052) the Joint Innovation Fund of Jiangsu Province(BY2009107) the National Basic Research Program of China(2003CB615707)
文摘Three stable 4-substituted pyridine-based ruthenium(II)complexes[RuCl2(PPh3)L](L=4-R-2,6-bis (diethylaminomethylene)pyridine,R=Br,H or allyloxy)were synthesized.The catalytic activities of the complexes toward transfer hydrogenation from alcohols to ketones were investigated.The electronic effects of the para-substituent in the pyridyl ring were probed and we found that the electron-donating group increased the catalytic activity.The result suggests that an electron-donating group is probably preferential for linking the catalytic ruthenium complex and the chemically inert supporting molecules such as a carbosilane dendrimer.
文摘As benzoxazin-4-ones and quinazolines linked to indole nucleus acting as a good pharmacophore, the synthesis of these compounds has significant meaning. The key intermediates 2-(2', 5'-disubstituted-indol-2'-yl)-4H-3, 1-benzoxazin-4-ones (3) were synthesized from cyclocondensation of indole-2-carbonyl chlorides (2) and anthranilic acid. Compound (3) on reaction with thiosemicarbazide and o-phenylene diamine afforded the compound (4) and (6) respectively. Compound (4) subjected to intramolecular cyclization under thermal conditions above its melting point afforded the compound (5). Similarly compound (3) on fusion with o- phenylene diamine gave compound (7). Structures of these compounds were confirmed by their spectral studies. The compounds were screened for their antimicrobial activity and the results were reported.
基金National Basic Research Program(973 Program, Grant No.2004CB518904)the State New Drug Innovation (Grant No.2009ZX09301-010,2009ZX09103 -044).
文摘A novel method to prepare guanidine substituted aminoglycoside derivatives was developed.Free guanidine reacted with Cbz-protected aminoglycosides to produce guanidinylcarbonyl substituted derivatives.A methoxycarbonyl-protected intermediate was isolated,and the mechanism of guanidinylcarbonyl modification was proposed.With this method,six per- or part-guanidylcarbonyl substituted aminoglycosides were successfully obtained in good yields.Their in vitro antibacterial activities were essayed.
