|1.||Kawamata, Hiroshi: 1 article (01/2012)|
|2.||Zhang, Weiqing: 1 article (01/2012)|
|3.||Liu, Kopin: 1 article (01/2012)|
|4.||Shtil, Alexander A: 1 article (09/2010)|
|5.||Volodina, Yulia L: 1 article (09/2010)|
|6.||Stepanova, Evgenia V: 1 article (09/2010)|
|7.||Bykov, Evgeniy E: 1 article (09/2010)|
|8.||Luzikov, Yuriy N: 1 article (09/2010)|
|9.||Preobrazhenskaya, Maria N: 1 article (09/2010)|
|10.||Glazunova, Valeria A: 1 article (09/2010)|
09/15/2010 - "The most potent novel compounds killed human tumor cells at nanomolar-to-submicromolar concentrations, being one order of magnitude more potent than the prototype antibiotic turbomycin A [tris(indol-3-yl)methylium salt]. "
06/01/2009 - "When deoxycytidine (dC) and cumene hydroperoxide (CuOOH), a tumor promoter and a methyl radical producer, were reacted in the presence of ferrous ion at pH 7.4, the formation of m(5)dC was observed. "
02/01/1993 - "These results reflect the fact that LJC 10,627 does not evoke severe convulsions or cause death, even when it is administered intraventricularly at a high dose (300 micrograms per rat), and suggest that the low neurotoxic potential of LJC 10,627 may be attributed to the chemical structure of this compound, which has a methyl radical at the 1 beta site and a triazolium radical at the side chain of the second site."
|5.||Dehydration (Water Stress)