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近红外发射荧光团对人血清白蛋白的选择性检测:对结构-性质关系的见解

Selective Detection of Human Serum Albumin by Near Infrared Emissive Fluorophores: Insights into Structure-property Relationship.

作者信息

Choudhury Rajib, Patel Siddhi Rajeshbhai, Ghosh Anindya

机构信息

Department of Physical Sciences, Arkansas Tech University, Russellville, Arkansas, 72801, United States.

Department of Chemistry, University of Arkansas, Little Rock, Arkansas, 72204.

出版信息

J Photochem Photobiol A Chem. 2019 May 1;376:100-107. doi: 10.1016/j.jphotochem.2019.02.038. Epub 2019 Feb 28.

DOI:10.1016/j.jphotochem.2019.02.038
PMID:31762584
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6874406/
Abstract

Two donor-acceptor fluorophores were prepared and tested for quantitative determination of HSA in aqueous samples. Fluorophores were non-emissive in polar solvents due to energy loss via non-radiative decays. Complexation of the fluorophores with HSA resulted multi-fold enhancement of emission in the red-near infrared (NIR) region. The emission intensity was linearly correlated to the amount of protein in the solution, which enabled us to develop calibration graphs for quantitative estimation of HSA in synthetic urine samples. Between the two fluorophores, the methoxy substituted fluorophore 1 selectively recognized HSA. It exhibited remarkable fluorescence enhancement with HSA over bovine serum albumin (BSA) and other globular proteins. The selective sensing aptitude of 1 was attributed to its restricted motions in the protein's microenvironment due to multiple non-covalent interactions, preventing energy loss by radiationless decay. The different recognition properties of the fluorophores were estimated by the steady-state fluorescence and molecular docking studies. These findings indicate that this class of fluorophores can be useful for quantitative estimation of HSA in biological urine and blood samples in clinical practice.

摘要

制备了两种供体-受体荧光团,并对其进行测试以定量测定水性样品中的人血清白蛋白(HSA)。由于通过非辐射衰变导致能量损失,荧光团在极性溶剂中不发光。荧光团与HSA的络合导致在近红外(NIR)区域发射增强数倍。发射强度与溶液中蛋白质的量呈线性相关,这使我们能够绘制校准曲线以定量估计合成尿液样品中的HSA。在这两种荧光团中,甲氧基取代的荧光团1选择性地识别HSA。与牛血清白蛋白(BSA)和其他球状蛋白相比,它与HSA一起表现出显著的荧光增强。1的选择性传感能力归因于其在蛋白质微环境中由于多种非共价相互作用而受到限制的运动,从而防止了无辐射衰变导致的能量损失。通过稳态荧光和分子对接研究评估了荧光团的不同识别特性。这些发现表明,这类荧光团可用于临床实践中生物尿液和血液样品中HSA的定量估计。

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