Spectrophotometric Study on the Interaction of Zidovudine and Its Acetate Ester with Bovine Serum Albumin

Burabiye·; Yakup; Turghun·; Muhammad; Yunusjan·; Turahun; Zorem·; Muhammad; Kipayem·; Muhammad; Abdurahman·; Tursun; ZHAO Zhong-kui

doi:10.13422/j.cnki.syfjx.2014140095

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Spectrophotometric Study on the Interaction of Zidovudine and Its Acetate Ester with Bovine Serum Albumin

更新时间：2024-01-04

- Spectrophotometric Study on the Interaction of Zidovudine and Its Acetate Ester with Bovine Serum Albumin
- Chinese Journal of Experimental Traditional Medical Formulae Vol. 20, Issue 14, Pages: 95-99(2014)
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- DOI：10.13422/j.cnki.syfjx.2014140095
  CLC： R96
- Published：2014
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Burabiye·, Yakup, Turghun·, et al. Spectrophotometric Study on the Interaction of Zidovudine and Its Acetate Ester with Bovine Serum Albumin[J]. Chinese journal of experimental traditional medical formulae, 2014, 20(14): 95-99.
DOI：

Burabiye·, Yakup, Turghun·, et al. Spectrophotometric Study on the Interaction of Zidovudine and Its Acetate Ester with Bovine Serum Albumin[J]. Chinese journal of experimental traditional medical formulae, 2014, 20(14): 95-99. DOI： 10.13422/j.cnki.syfjx.2014140095.

摘要

目的：在模拟人体生理条件下（pH 7.4），分别评价了齐多夫定及其乙酸酯（AZT-Es）与牛血清白蛋白（BSA）的结合常数、结合位点数、结合类型、共存金属离子对结合的影响。方法：在不同温度下运用荧光猝灭光谱法，同步荧光光谱和紫外光谱法，研究AZT，AZT-Es分别与BSA的相互作用，利用Stern-Volmer方程处理实验数据，得到结合常数，结合位点。结果：在温度为289～310 K时，AZT对BSA的荧光猝灭机理以静态猝灭为主；AZT-Es对BSA的荧光猝灭机制低温下为静态猝灭，高温下静态和动态猝灭共同作用；上两种体系的结合力主要为疏水作用，以摩尔比约 1：1结合；同步荧光光谱显示，AZT-Es的加入使BSA的酪氨酸残基和色氨酸残基构象同时发生了变化，与BSA残基所处环境的疏水性降低；在298 K时共存Ca2+，Zn2+，Mg2+，Cu2+，Pb2+等金属离子对两种体系结合常数的影响微乎其微。结论：不同温度条件下AZT，AZT-Es对BSA的荧光猝灭机理不同；两种体系的结合力为疏水作用；金属离子对两种体系结合常数的影响不大。

Abstract

Objective: The interaction of zidovudine and zidovudine acetate ester (AZT-Es)

with bovine serum albumin(BSA) has been investigated under physiological conditions. The binding constants

binding sites

binding type and effect of coexisting ions on the binding were studied. Method: The interaction of AZT and AZT-Es

with bovine serum albumin(BSA) has been studied by fluorescence quenching

synchronous fluorescence spectroscopy and ultraviolet spectrophotometry at different temperatures. The Stern-Volmer formula was used to process the experiment date. The binding constant and number of binding sites were obtained. Result: The interaction of AZT with BSA is mainly static quenching at temperature range of 289-310 K

while interaction of AZT-Es with BSA is dominate by the static quenching at lower temperature

and turned to be combination of static and dynamic quenching at higher temperature. The binding is mainly driven by the hydrophobic interaction for both two systems and they bound at a molar ratio of 1:1. The synchronous spectra showed that with increasing AZT-Es contents

the conformations of BSA tyrosyl and tryptophan residues were changed

and the hydrophobicity of the environment around the residues were decreased. The effects of coexisting metal ions on the binding constants of two systems are negligible. Conclusion: The interaction of AZT and AZT-Es with BSA are different quenching mechanism at different temperature. The binding is mainly driven by the hydrophobic interaction for both two systems. The effects of coexisting metal ions on the binding constants of two systems are negligible.

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