吖啶橙结合后DNA中碱基的可及性增加。
Increased accessibility of bases in DNA upon binding of acridine orange.
作者信息
Kapuscinski J, Darzynkiewicz Z
出版信息
Nucleic Acids Res. 1983 Nov 11;11(21):7555-68. doi: 10.1093/nar/11.21.7555.
Abstract
Acridine orange (AO) forms 1:1 complexes with dsDNA which are insoluble in aqueous media, exhibit red luminescence, have minimal green luminescence and resemble complexes of AO with ss nucleic acids. During formation and/or dissociation of these complexes, accessibility of DNA bases to two conformational probes, formaldehyde and diethyl pyrocarbonate is increased, suggesting that the base pairing is destroyed and DNA at least partially denatured. Adriamycin and Ellipticine, but not Ethidium Bromide exert similar destabilizing effects. The results confirm our earlier predictions based on thermodynamic calculations that the double helix undergoes destabilization upon binding an intercalator characterized by high cooperativity in interaction with ss nucleic acids. Thus, the highly cooperative ligand binding to ss sections during the "breathing" of the polymer may progressively destabilize the adjacent ds structure.
摘要
吖啶橙(AO)与双链DNA形成1:1复合物,该复合物不溶于水介质,发出红色荧光,绿色荧光极弱,类似于AO与单链核酸的复合物。在这些复合物形成和/或解离过程中,DNA碱基对两种构象探针——甲醛和焦碳酸二乙酯的可及性增加,这表明碱基配对被破坏,DNA至少部分变性。阿霉素和玫瑰树碱,但不是溴化乙锭,具有类似的去稳定作用。结果证实了我们早期基于热力学计算的预测,即双螺旋在结合一种与单链核酸相互作用具有高协同性的嵌入剂时会发生去稳定作用。因此,在聚合物“呼吸”过程中与单链部分的高度协同配体结合可能会逐渐破坏相邻的双链结构。
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