[1]Singh,Genda;Shastry,P.S.S.J.;Lonibala,R.K.;Rao,T.R.[SynthesisandReactivityinInorganicandMetal-OrganicChemistry,1992,vol.22,p.1041-1060]
[1]Singh,Genda;Shastry,P.S.S.J.;Lonibala,R.K.;Rao,T.R.[SynthesisandReactivityinInorganicandMetal-OrganicChemistry,1992,vol.22,p.1041-1060]
[1]Singh,Genda;Shastry,P.S.S.J.;Lonibala,R.K.;Rao,T.R.[SynthesisandReactivityinInorganicandMetal-OrganicChemistry,1992,vol.22,p.1041-1060]
[1]Singh,Genda;Shastry,P.S.S.J.;Lonibala,R.K.;Rao,T.R.[SynthesisandReactivityinInorganicandMetal-OrganicChemistry,1992,vol.22,p.1041-1060]
Title: The effect of new lipophilic chelators on the activities of cytosolic reductases and P450 cytochromes involved in the metabolism of anthracycline antibiotics: studies in vitro.
Journal: Physiological research 20040101
Title: Selective inhibition of l kappaB alpha phosphorylation and HIV-1 LTR-directed gene expression by novel antioxidant compounds.
Journal: Virology 19970804
Title: Hermes-Lima M, et al. The iron chelator pyridoxal isonicotinoyl hydrazone (PIH) and its analogues prevent damage to 2-deoxyribose mediated by ferric iron plus ascorbate. Biochim Biophys Acta. 2000 Oct 18;1523(2-3):154-60.
Title: Landschulz W, et al. A lipophilic iron chelator can replace transferrin as a stimulator of cell proliferation and differentiation. J Cell Biol. 1984 Feb;98(2):596-601.