嘌呤的水溶性之谜：纳米粒子的形成掩盖了真相。

Puzzling Aqueous Solubility of Guanine Obscured by the Formation of Nanoparticles.

机构信息

Department of Biotechnology and Physical Chemistry , Cracow University of Technology , ul. Warszawska 24 , 31-155 Krakow , Poland.

出版信息

J Phys Chem B. 2018 Aug 2;122(30):7497-7502. doi: 10.1021/acs.jpcb.8b04327. Epub 2018 Jul 24.

DOI:10.1021/acs.jpcb.8b04327

PMID:29999329

Abstract

Dissolution of guanine in neutral solutions was obscured by peculiar behavior of guanine, indicating an apparent dependence of solubility on the amount of solid guanine used. Here, we demonstrate that the problem is caused by the formation of tiny guanine nanoparticles that tend to grow forming stable particles of ca. 800 nm size. This effect can be minimalized by using small quantities of guanine powder for dissolution. We also show that assuming a constant, independent of pH, concentration of neutral form of guanine, at 25 °C equal 25.4 μM, and applying known p K values related to its dissociation or protonation, it is possible to calculate the concentrations of all conjugate acids and bases of guanine at the given pH value, and by summing them up, the guanine solubility.

摘要

在中性溶液中，鸟嘌呤的溶解被鸟嘌呤的特殊行为所掩盖，表明溶解度明显依赖于所用固体鸟嘌呤的量。在这里，我们证明，这个问题是由形成微小的鸟嘌呤纳米粒子引起的，这些纳米粒子倾向于生长形成约 800nm 大小的稳定粒子。通过使用少量的鸟嘌呤粉末进行溶解，可以将这种影响降到最低。我们还表明，假设在 25°C 时，中性形式的鸟嘌呤的浓度是一个常数，与 pH 值无关，等于 25.4μM，并且应用已知的与鸟嘌呤的离解或质子化有关的 pK 值，可以计算给定 pH 值下鸟嘌呤所有共轭酸和碱的浓度，并通过将它们相加，计算出鸟嘌呤的溶解度。

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嘌呤的水溶性之谜：纳米粒子的形成掩盖了真相。

Puzzling Aqueous Solubility of Guanine Obscured by the Formation of Nanoparticles.

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