QU, Yun, Amanda HARRIS, Andrea PETZ, Peyman KABOLIZADEH, Hana PENAZOVA a Nicholas FARRELL. Synthesis and DNA conformational changes of non-covalent polynuclear platinum complexes. Journal of Inorganic Biochemistry. New York, USA: Elsevier, 2004, roč. 98, č. 10, s. 1591-1598. ISSN 0162-0134. |
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@article{557861, author = {Qu, Yun and Harris, Amanda and Petz, Andrea and Kabolizadeh, Peyman and Penazova, Hana and Farrell, Nicholas}, article_location = {New York, USA}, article_number = {10}, keywords = {Non-covalent DNA binding; Polynuclear platinum}, language = {eng}, issn = {0162-0134}, journal = {Journal of Inorganic Biochemistry}, title = {Synthesis and DNA conformational changes of non-covalent polynuclear platinum complexes}, volume = {98}, year = {2004} }
TY - JOUR ID - 557861 AU - Qu, Yun - Harris, Amanda - Petz, Andrea - Kabolizadeh, Peyman - Penazova, Hana - Farrell, Nicholas PY - 2004 TI - Synthesis and DNA conformational changes of non-covalent polynuclear platinum complexes JF - Journal of Inorganic Biochemistry VL - 98 IS - 10 SP - 1591-1598 EP - 1591-1598 PB - Elsevier SN - 01620134 KW - Non-covalent DNA binding KW - Polynuclear platinum N2 - Polynuclear platinum compounds demonstrate many novel phenomena in their interactions with DNA and proteins as well as novel anti-cancer activities. Previous studies indicated that the high positive charge and the non-coordinated Ącentral linkerĄą of the polynuclear compounds could have major contributions to these features. Therefore, a series of non-covalent polynuclear platinum complexes, [ Pt(NH3)3 2-ŚĚ-Y]n+ (Y = polyamine linker or trans-Pt(NH3)2(H2N(CH2)6NH2)2 ) was synthesized and the DNA interactions of these platinum complexes were investigated. The conformational changes induced by these compounds in polymer DNA were studied by circular dichroism and the reversibility of the transition was tested by subsequent titration with the DNA intercalating agent ethidium bromide (EtBr). Fluorescent quenching was also used to assess the ability of EtBr to intercalate into A and Z-DNA induced by the compounds. The non-covalent polynuclear platinum complexes induced both B Ąú A and B Ąú Z conformational changes in polymer DNA. These conformational changes were partially irreversible. The platinum compound with the spermidine linker, [ Pt(NH3)3 2-ŚĚ-spermidine-N1,N8]Cl5 Ą 2H2O, is more efficient in inducing the conformational changes of DNA and it is less reversible than complexes with other linkers. The melting point study showed that the non-covalent polynuclear platinum complexes stabilized the duplex DNA and the higher the electrical charge of the complexes the greater the stabilization observed. ER -
QU, Yun, Amanda HARRIS, Andrea PETZ, Peyman KABOLIZADEH, Hana PENAZOVA a Nicholas FARRELL. Synthesis and DNA conformational changes of non-covalent polynuclear platinum complexes. \textit{Journal of Inorganic Biochemistry}. New York, USA: Elsevier, 2004, roč.~98, č.~10, s.~1591-1598. ISSN~0162-0134.
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