离子排序对DNA水溶液电导率实验的影响

O. O. Liubysh, O. Alekseev, S. Tkachov, S. Perepelytsya
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引用次数: 6

摘要

通过电导率实验,研究了DNA水溶液中离子有序度的影响。对含KCl盐的DNA溶液在28 ~ 70℃温度范围内的电导率进行了测量,盐浓度在0 ~ 2m范围内变化,对不含DNA但具有相同KCl盐浓度的溶液的电导率也进行了测量。结果表明,在无盐DNA溶液中观察到双螺旋结构的熔融过程,而在加盐DNA溶液中则没有大分子变性的特征。当盐浓度低于某个临界值(0.4 M)时,DNA溶液的电导率高于不含DNA的KCl水溶液的电导率。从临界浓度开始,KCl溶液的电导率高于添加盐的DNA溶液的电导率。为了描述实验数据,基于电解质理论建立了现象学模型。在建立的模型框架中,引入了反序机制。根据这一机制,在低盐浓度下,体系的电导率是由DNA离子水合物外壳的反离子引起的。增加盐的量,使其达到临界浓度,反离子在DNA聚阴离子上凝聚。盐浓度的进一步增加会导致dna -盐复合物的形成,从而降低系统的导电性。
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Effect of ionic ordering in conductivity experiments of DNA aqueous solutions
The effects of ionic ordering in DNA water solutions are studied by conductivity experiments. The conductivity measurements are performed for the solutions of DNA with KCl salt in the temperature range from 28 to 70 C. Salt concentration vary from 0 to 2 M. The conductivity of solutions without DNA but with the same concentration of KCl salt are also performed. The results show that in case of salt free solution of DNA the melting process of the double helix is observed, while in case of DNA solution with added salt the macromolecule denaturation is not featured. For salt concentrations lower than some critical one (0.4 M) the conductivity of DNA solution is higher than the conductivity of KCl water solution without DNA. Starting from the critical concentration the conductivity of KCl solution is higher than the conductivity of DNA solution with added salt. For description of the experimental data phenomenological model is elaborated basing on electrolyte theory. In framework of the developed model a mechanism of counterion ordering is introduced. According to this mechanism under the low salt concentrations electrical conductivity of the system is caused by counterions of DNA ion-hydrate shell. Increasing the amount of salt to the critical concentration counterions condense on DNA polyanion. Further increase of salt concentration leads to the formation of DNA-salt complexes that decreases the conductivity of the system.
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