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采用湿纺法制备的定向DNA-配体复合物的红外线性二色性

Infrared linear dichroism of oriented DNA-ligand complexes prepared with the wet-spinning method.

作者信息

Fritzsche H, Rupprecht A, Richter M

出版信息

Nucleic Acids Res. 1984 Dec 11;12(23):9165-77. doi: 10.1093/nar/12.23.9165.

DOI:10.1093/nar/12.23.9165
PMID:6096820
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC320446/
Abstract

Oriented DNA films prepared by the wet-spinning technique have been complexed with several ligands: the anthracycline antibiotic violamycin BI, the dipeptide L-carnosine, and the oligopeptide antibiotic netropsin. The formation of the DNA-ligand complexes is accompanied by dramatic changes of the conformational flexibility of DNA. The B-A transition which occurs usually between 80% and 70% relative humidity (RH) is more or less suppressed by the ligands. Violamycin BI at a total ligand per DNA base pair ratio, rt, of approximately 0.03 and L-carnosine at rt approximately 1.5 inhibit the B-A transition of approximately 18 and approximately 0.25 base pairs per ligand molecule, respectively. Netropsin at rt = 0.2 induces a very stable B-DNA even at rather low RH (23%). The total hydration of this complex is significantly higher than for a drug-free DNA film. Netropsin-DNA complexes at rt of 0.02 and 0.01 result in an inhibition of approximately 45 base pairs per drug molecule with respect to the B-A transition.

摘要

通过湿纺技术制备的取向DNA薄膜已与几种配体复合:蒽环类抗生素紫霉素BI、二肽L-肌肽和寡肽抗生素纺锤菌素。DNA-配体复合物的形成伴随着DNA构象灵活性的显著变化。通常在相对湿度(RH)80%至70%之间发生的B-A转变或多或少受到配体的抑制。每DNA碱基对的总配体比率rt约为0.03时的紫霉素BI和rt约为1.5时的L-肌肽分别抑制每配体分子约18和约0.25个碱基对的B-A转变。rt = 0.2时的纺锤菌素即使在相当低的RH(23%)下也能诱导出非常稳定的B-DNA。该复合物的总水合作用明显高于无药物的DNA薄膜。rt为0.02和0.01时的纺锤菌素-DNA复合物相对于B-A转变而言,每药物分子抑制约45个碱基对。

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