Vladimir P. Barannikov, Elena Yu Tyunina, Galina N. Tarasova
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引用次数: 0
摘要
使用密度计 DMA 5000 M(Anton Paar)测量了尿嘧啶(Ura)与甘氨酰-甘氨酸(GlyGly)和甘氨酰-苯丙氨酸(GlyPhe)在缓冲盐水(pH 7.4)中的混合物密度,温度分别为(288.15、293.15、298.15、303.15、308.15 和 313.15)K。评估了表观摩尔体积、无限稀释时的极限表观摩尔体积及其随温度变化的导数。研究了尿嘧啶(Ura)与糖肽(GlyGly、GlyPhe、GlyTyr、GlyGlu)的相互作用,并回顾了早期获得的 Ura 在 GlyTyr 和 GlyGlu 缓冲溶液中的体积特性。讨论了试剂的浓度、离子状态和疏水性对 Ura 体积特性的影响。结果表明,Ura 与糖肽之间形成了 1:1 的复合物。结果表明,尿嘧啶与糖肽的络合伴随着 Ura 摩尔体积的正向变化。赫普勒参数的正值表明,随着肽的加入,尿嘧啶环境中溶剂的有序性增强。尿嘧啶是一种结构制造者,其结构制造能力随系列的增加而增强:Ura < GlyPhe < GlyGly < GlyGlu < GlyTyr。
Characterization of complexation of uracil with peptides through its volumetric properties in buffer saline solution at different temperatures
Densities of mixtures of uracil (Ura) with glycyl-glycine (GlyGly) and glycyl-phenylalanine (GlyPhe) in a buffered saline (pH 7.4) were measured at T=(288.15, 293.15, 298.15, 303.15, 308.15 and 313.15) K using the density meter DMA 5000 M (Anton Paar). The apparent molar volumes, limiting apparent molar volumes at infinite dilution and their derivatives with respect to temperature have been evaluated. Interactions of uracil (Ura) with glycylpeptides (GlyGly, GlyPhe, GlyTyr, GlyGlu) were studied with using review volumetric properties obtained early for Ura in GlyTyr and GlyGlu buffered solutions. The effect of concentration, ionic state and hydrophobicity of reagents on the Ura volume properties were discussed. The results indicate the complex formation between Ura and glycylpeptides with 1:1 stoichiometry. It was shown that the complexation of uracil with the glycylpeptides is accompanied by the positive changes of molar volume of Ura. The positive values of Hepler parameter indicate an increase in the ordering of the solvent in the environment of uracil with the addition of peptides. Uracil acts as a structure maker and its structure-making ability increases in series: Ura < GlyPhe < GlyGly < GlyGlu < GlyTyr.
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The Journal of Chemical Thermodynamics exists primarily for dissemination of significant new knowledge in experimental equilibrium thermodynamics and transport properties of chemical systems. The defining attributes of The Journal are the quality and relevance of the papers published.
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