水溶性壳聚糖与牛血清白蛋白相互作用的研究

采用紫外和荧光光谱研究了水溶性壳聚糖(CS)与牛血清白蛋白(BSA)之间的相互作用。结果表明:随CS浓度的增加,BSA的紫外吸收光谱表现出明显的增色效应和较小的紫移;CS可以猝灭BSA的内源荧光,其猝灭机理是CS与BSA形成复合物的静态猝灭。并且测定了在不同温度下,该反应的结合常数KA分别为6.92×106(298 K),5.01×106(308 K),3.31×106(318 K),CS与BSA以摩尔比1∶1结合。同时采用同步荧光光谱法探讨了CS对BSA构象的影响。     

槐定碱与牛血清白蛋白的相互作用研究

在模拟动物体生理条件下,用荧光猝灭、荧光偏振和紫外-可见吸收光谱法研究了槐定碱与牛血清白蛋白(BSA)结合作用。荧光猝灭数据显示,槐定碱与BSA发生反应生成了新的复合物,属于静态荧光猝灭。求出了不同温度(19、25、31、37℃)下槐定碱与BSA作用的结合常数分别为1.219×106,1.164×106,1.110×106和1.057×106L/mol,由van’tHoff方程式计算槐定碱与BSA反应的热力学参数:焓变ΔH和熵变ΔS值分别为-5.97kJ/mol和96.11J/(mol.K),表明槐定碱与BSA间的作用力以静电引力为主。以华法林和布洛芬(分别为siteI和siteII探针)为标记药物研究槐定碱在BSA上的结合位点,结果表明,槐定碱结合在BSA疏水空腔的siteI位点。     

光谱法研究单硝酸异山梨酯与牛血清白蛋白的相互作用

为研究单硝酸异山梨酯(IM)与牛血清白蛋白(BSA)之间的相互作用,用紫外-可见光谱法和荧光光谱法在优化的实验条件下进行研究。结果表明:IM与BSA形成基态复合物从而猝灭BSA的内源性荧光,猝灭机理为静态猝灭。通过计算得出IM与BSA的结合常数Kb及结合为点数n。根据热力学参数确定了IM和BSA之间的作用力类型主要为静电引力。生成自由能变驻G为负值,表明IM与BSA的作用过程是一个自发过程。同步荧光光谱表明IM对BSA构象产生很微弱的影响,使BSA腔内疏水环境的极性减弱。同步荧光光谱显示两者的结合位点更接近于酪氨酸,两者的结合部位主要位于亚螺旋域ⅢA中。Hill系数nH1,表明IM有正协同作用。为后续硝酸脂类药物的研发和进一步探讨IM在生物体内与蛋白质的作用机制和生物学效应提供了理论依据。     

胶毒素与BSA的相互作用

应用荧光、圆二色和紫外—可见吸收等波谱法研究胶毒素与牛血清白蛋白(BSA)的相互作用。荧光光谱实验结果表明胶毒素主要靠疏水作用与BSA结合, 而对其内源荧光产生猝灭作用,其淬灭方式为静态猝灭, 胶毒素与BSA的结合常数为7.2×103 L/mol。圆二色光谱检测发现, 随着胶毒素浓度的增加, BSA的a-螺旋数量也增加, 当胶毒素浓度为BSA浓度的100倍时, BSA的a-螺旋增加40.1%, 表明胶毒素与BSA的结合改变了BSA的空间构象。     

羧甲基化壳聚糖季铵盐与牛血清白蛋白的相互作用研究

应用荧光光谱研究了羧甲基化壳聚糖季铵盐(CMCQA)与牛血清白蛋白(BSA)的相互作用.研究表明:CMCQA对BSA内源性荧光猝灭机制属于CMCQA和BSA形成复合物所引起的静态猝灭.在室温下,二者的结合常数为2.45×104 L/mol,结合位点数为1.04.二者主要靠静电引力相互作用.     

壳寡糖镧配合物的抑菌活性及其与牛血清白蛋白的相互作用

合成了壳寡糖和稀土离子La3+的配合物,利用红外光谱、紫外光谱和差热-热重手段对其结构和性质进行了表征。采用抑菌圈法考察了壳寡糖、壳寡糖-La对革兰氏阳性菌金黄色葡萄球菌和革兰氏阴性菌大肠杆菌的抑菌活性。此外,紫外光谱、荧光光谱和循环伏安曲线法研究壳寡糖-La与牛血清白蛋白(BSA)相互作用。结果表明壳寡糖、壳寡糖-La对两种细菌均具有较强的抑菌活性,且壳寡糖-La的抑菌活性强于壳寡糖;壳寡糖-La使BSA的内源荧光猝灭,猝灭机制为静态猝灭,并计算了室温下壳寡糖-La与BSA的结合常数和结合位点数分别为6.35×104L/mol和1.29。     

诺氟沙星与牛血清白蛋白相互作用的研究

用荧光光谱法研究诺氟沙星与牛血清白蛋白之间的结合作用,确定了诺氟沙星与牛血清白蛋白的荧光猝灭机制为静态猝灭。通过测定和计算不同温度下该结合反应的结合常数和结合位点数,并根据热力学方程求得了结合反应的热力学参数,讨论了两者问的主要作用力类型是范德华力和氢键。同时采用同步荧光技术考察了诺氟沙星对BSA构象的影响。并从荧光寿命进一步证明诺氟沙星与牛血清白蛋白的荧光猝灭机制为静态猝灭。     

高良姜素与牛血清白蛋白作用的光谱研究

采用荧光猝灭、同步荧光、三维荧光和圆二色谱,研究高良姜素与牛血清白蛋白(BSA)之间的相互作用。结果表明:高良姜素对BSA有较强的荧光猝灭作用,且为静态猝灭,并计算出不同温度下二者的结合常数(Ka)与结合位点数(n)分别为9.33×10~6L/mol、1.17(290.15 K),2.34×10~6L/mol、1.09(296.15 K),4.57×10~5L/mol、1.01(303.15 K),1.02×10~5L/mol、0.99(310.15 K)。由热力学参数确定它们之间的作用力主要是氢键和范德华力,利用竞争结合实验推断高良姜素的结合位点为BSA疏水空腔的SiteⅠ。同步荧光、三维荧光和圆二色谱显示高良姜素与BSA作用时更靠近色氨酸残基,使其周围的疏水性减弱,而对蛋白α-螺旋结构影响较小。     

荧光光谱法研究淫羊藿苷和淫羊藿次苷Ⅰ与牛血清白蛋白的相互作用

在模拟生理条件下应用荧光光谱学方法分别研究了淫羊藿苷和淫羊藿次苷Ⅰ与牛血清白蛋白（BSA）间的结合作用. 根据荧光强度数据,计算出了结合常数KA,结合位点数n和热力学参数（△G, △H 和△S）. 实验结果表明,淫羊藿苷和淫羊藿次苷Ⅰ都能显著猝灭BSA的内源荧光,猝灭机制均为形成基态复合物的单一静态猝灭过程. 不同温度下（17 ℃, 27 ℃, 37 ℃）得到的KA和n值,表明淫羊藿次苷Ⅰ与BSA的结合强于淫羊藿苷. 从得到的热力学参数判断,淫羊藿苷与BSA间的主要作用力是氢键作用和范德华力,而疏水作用和静电引力在淫羊藿次苷Ⅰ与BSA形成复合物过程中起主导作用.而且同步荧光光谱显示,淫羊藿苷和淫羊藿次苷Ⅰ与BSA的结合导致BSA构象发生了变化.     

表面活性剂增敏——牛血清白蛋白荧光猝灭法测定槐花中芦丁含量

目的：应用牛血清白蛋白荧光猝灭法建立一种测定槐花中芦丁含量的新方法。方法：牛血清白蛋白（BSA）具有很强的内源荧光性,而芦丁溶液本身不产生荧光。当芦丁与BSA结合后,会导致其荧光强度下降,表面活性剂吐温-80（T-80）对体系有促进荧光猝灭作用。BSA在λex=338nm处的荧光猝灭程度与芦丁的量在一定浓度范围内呈良好的线性关系,据此建立测定槐花中芦丁含量的新方法。结果：该结合物的最大发射波长为λmax=338nm,与芦丁摩尔浓度在6×10-7-3.0×10-5mol.L-1范围内线性关系良好。其线性回归方程为ΔF=136.36CRu（×10-5mol.L-1）-0.5454,相关系数r=0.9976,检出限为1.58×10-7mol.L-1,RSD为2.8%-4.3%,加标回收率为97.6%~101.2%。结论：本方法操作简便、快速,用于实际样本的测定,结果满意。     

光谱及分子模拟法对HSA和BSA与酪氨酸激酶抑制剂Imatinib相互作用的比较分析

研究一种酪氨酸激酶抑制剂（tyrosine kinase inhibitor, TKI）伊马替尼（imatinib, IMA）与人血清清蛋白（HSA）及牛血清清蛋白（BSA）的相互作用,比较分析HSA和BSA与IMA相互作用机制的差异. 模拟生理条件下,计算机模拟技术结合荧光光谱和紫外光谱法,研究IMA与蛋白质的作用机制. 分子模建IMA与血清清蛋白的结合模型,表明伊马替尼与蛋白质的相互作用力为疏水作用力,兼有氢键作用. 光谱结果表明,IMA与HSA和BSA的相互作用表现为静态结合过程,结合强度较强,IMA与HSA和BSA分子的结合距离r值较小,说明发生了能量转移现象. IMA对HSA和BSA的结构域微区构象产生影响,使结合位域的疏水性发生改变. 荧光相图技术解析出IMA与HSA和BSA反应构象型态的变迁为“二态”模型. HSA与IMA相互作用的热力学参数表明,IMA与HSA之间是以疏水作用为主的分子间作用,而IMA与BSA之间的作用力为氢键和范德华力,兼有少量的疏水作用力. 光谱实验与计算机模拟结果基本一致,可为研究IMA与HSA和BSA相互作用本质提供一定参考.     

Study on the interaction between anti‐tuberculosis drug ethambutol and bovine serum albumin: multispectroscopic and cyclic voltammetric approaches

The binding of bovine serum albumin (BSA) to ethambutol (EMB) was investigated using spectroscopic methods, viz., fluorescence, Fourier transform infrared (FTIR), ultraviolet (UV)/vis absorption and cyclic voltammetry techniques. Spectroscopic analysis of the emission quenching at different temperatures revealed that the quenching mechanism of serum albumin by EMB is static, which was also confirmed by lifetime measurements. The number of binding sites, n, and binding constant, K, were obtained at various temperatures. The distance, r, between EMB and the protein was evaluated according to the Förster energy transfer theory. Based on displacement experiments using site probes, viz., warfarin, ibuprofen and digitoxin, the site of binding of EMB in BSA was proposed to be Sudlow's site I. The effect of EMB on the conformation of BSA was analyzed by using synchronous fluorescence spectra (SFS) and 3D fluorescence spectra. The results of fluorescence, UV/vis absorption and FTIR spectra showed that the conformation of BSA was changed in the presence of EMB. The thermodynamic parameters including enthalpy change (ΔH⁰), entropy change (ΔS⁰) and free energy change (ΔG⁰) for BSA–EMB were calculated according to the van't Hoff equation and are discussed.     

菠萝叶片PEP羧激酶与底物结合时构象的变化

菠萝叶片PEP羧激酶与底物OAA和ATP及配基Mn~(2+)等结合时引起紫外差示吸收光谱峰位和方向上的变化。OAA与酶结合诱导产生的差示吸收光谱在268—280nm处有一个宽负峰。ATP与酶结合出现两个差示负峰(242.5和273.5nm)。双底物OAA和ATP同时与酶结合,光谱上呈现252nm和268nm两个峰。Mn~(2+)不论与ATP或与ATP+OAA一起与酶反应时,皆使原来的峰位漂移,且正负方向逆转。酶蛋白在323nm有最大的荧光发射。OAA引起荧光发射强度增大,ATP及ATP+Mn~(2+)则减弱荧光发射。Mn~(2+)与OAA及ATP的复合效应导致荧光强度进一步减弱。     

Interaction between fasudil hydrochloride and bovine serum albumin: spectroscopic study

The interaction between fasudil hydrochloride (FSD) and bovine serum albumin (BSA) was investigated using fluorescence and ultraviolet spectroscopy under imitated physiological conditions. The Stern–Volmer quenching model has been successfully applied and the results revealed that FSD could quench the intrinsic fluorescence of BSA effectively via static quenching. The binding constants and binding sites for the BSA–FSD system were evaluated. The corresponding thermodynamic parameters obtained at different temperatures indicated that hydrophobic force played a major role in the interaction of FSD and BSA. The distance between the donor (BSA) and the acceptor (FSD) was obtained according to fluorescence resonance energy transfer (FRET). Synchronous fluorescence spectroscopy and FT‐IR spectra showed that the conformation of BSA was changed in the presence of FSD. Copyright © 2015 John Wiley & Sons, Ltd.     

Design and synthesis of the BODIPY–BSA complex for biological applications

A quinoxaline‐functionalized styryl–BODIPY derivative (S1) was synthesized by microwave‐assisted Knoevenagel condensation. It exhibited fluorescence enhancement upon micro‐encapsulation into the hydrophobic cavity of bovine serum albumin (BSA). The S1–BSA complex was characterized systematically using ultraviolet (UV)–visible absorption, fluorescence emission, kinetics, circular dichroism and time‐resolved lifetime measurements. The binding nature of BSA towards S1 was strong, and was found to be stable over a period of days. The studies showed that the S1–BSA complex could be used as a new biomaterial for fluorescence‐based high‐throughput assay for kinase enzymes.     

Native fluorescence and mag-indo-1-protein interaction as tools for probing unfolding and refolding sequences of the bovine serum albumin subdomain in the presence of guanidine hydrochloride

Changes in the fluorescence spectrum of tryptophans Trp 134 and Trp 212 in bovine serum albumin (BSA) and of Trp 214 of human serum albumin in the presence of the chaotropic agent guanidine hydrochloride (Gnd) were studied. A detailed analysis of the fluorescence spectrum of native BSA yielded the fluorescence spectrum for each tryptophan of BSA. Modifications in the binding of Mag-indo-1 to BSA, which results in a specific quenching of the fluorescence spectrum of Trp 134 associated with an energy transfer from Trp 134 to the protein-bound Mag-indo-1, were also investigated. Changes occurring when the Gnd concentration is decreased stepwise cover a larger concentration scale of Gnd than the reverse protocol, allowing one to suggest that the resulting conformational changes in the subdomain IA of BSA involve at least three different steps.     

Interaction between felodipine and bovine serum albumin: fluorescence quenching study

The fluorescence quenching spectrum of bovine serum albumin (BSA) was investigated in the presence of felodipine (FLD) by spectroscopic methods including fluorescence spectroscopy and UV–Vis absorption spectroscopy. Stern–Volmer quenching was successfully applied and the corresponding thermodynamic parameters, namely enthalpy change (ΔH), free energy change (ΔG) and entropy change (ΔS) at different temperatures (304, 314 and 324 K) were calculated according to the Van't Hoff relation. This revealed that the hydrophobic interaction plays a major role in stabilizing the complex. The fluorescence spectrum of BSA was studied in presence of various concentrations of SDS surfactant. The distance (r) between donor (BSA) and acceptor (FLD) was obtained according to fluorescence resonance energy transfer (FRET). The synchronous fluorescence spectroscopy was used to investigate the effect of FLD on BSA molecule. The result shows that the conformation of BSA was changed in the presence of felodipine. Copyright © 2009 John Wiley & Sons, Ltd.     

Conformational alteration in serum albumin as a carrier for pyridoxal phosphate: a distinction from pyridoxal phosphate-dependent glutamate decarboxylase

The conformation of bovine serum albumin (BSA), a pyridoxal phosphate (pyridoxal-P) carrier, was investigated by using uv/visible spectrophotometry, fluorescence spectroscopy, circular dichroism, and differential scanning microcalorimetry. Upon interacting with pyridoxal-P, the uv/visible absorption spectrum of BSA exhibits peaks at 330 and 392 nm due to the formation of a Schiff base. Pyridoxal-P quenches the fluorescence emission intensity (excited at 295 or 280 nm) by 24% and enhances fluorescence steady-state polarization of BSA by 20%. These observations suggest a conformational change in BSA when it interacts with pyridoxal-P. However, this conformational change appears to be small since circular dichroism showed only a 2-4% decrease in the alpha-helical content of BSA and no change in the beta-sheet content, and differential scanning microcalorimetry yielded only a 10% change in the enthalpy of thermal unfolding of BSA. 2-Aminoethylisothiouronium bromide, an antioxidant, causes no effect on either uv/visible absorption spectrum or fluorescence emission intensity of BSA, suggesting that BSA lacks sensitive sulfhydryl groups. To help in understanding BSA as a carrier for pyridoxal-P, the results were compared with those for glutamate decarboxylase (GAD), a pyridoxal-P-dependent protein, which requires pyridoxal-P as the cofactor for activity. Although BSA and GAD exhibit comparable molecular weights (66430 versus 65300), numbers of amino acid residues (582 versus 585), and binding affinity (>10(6) M-1), distinct conformational alterations occur between the two proteins upon interacting with pyridoxal-P: a small conformational change for BSA versus a large conformational change for GAD. In contrast to the case of BSA, AET causes significant effects on both the uv/visible spectrum and fluorescence emission intensity of GAD, because GAD contains sensitive sulfhydryl groups. Factors such as disulfide bond and active site sequence were discussed to understand BAS as a carrier for pyridoxal-P and a pyridoxal-P-independent protein.     

Fluorescence spectrometric study on the interaction of tamibarotene with bovine serum albumin

The interaction between tamibarotene and bovine serum albumin (BSA) was studied using fluorescence quenching technique and ultraviolet–visible spectrophotometry. The results of experiments showed that tamibarotene could strongly quench the intrinsic fluorescence of BSA by a dynamic quenching mechanism. The apparent binding constant, number of binding site and corresponding thermodynamic parameters at different temperatures were calculated respectively, and the main interaction force between tamibarotene and BSA was proved to be hydrophobic force. Synchronous fluorescence spectra showed that tamibarotene changed the molecular conformation of BSA. When BSA concentration was 1.00 × 10^?6 mol L^?1, the quenched fluorescence ΔF had a good linear relationship with the concentration of tamibarotene in the range 1.00 × 10^?6 to 12.00 × 10^?6 mol L^?1 with the detection limit of 6.52 × 10^?7 mol L^?1. Copyright © 2010 John Wiley & Sons, Ltd.     

厄他培南与人血清清蛋白体外相互作用的理化特性

研究新型碳青霉烯类抗菌素厄他培南（ertapenem, ERT）与人血清清蛋白（human serum albumin,HSA）的体外相互作用的物理化学特性。模拟生理条件下,计算机模拟技术结合荧光光谱和紫外光谱,研究ERT与HSA相互作用机制,荧光光谱实验中,Kq 值远大于2.0×1010 L·(mol·s)-1,ERT对HSA荧光猝灭的Stern-Volmer 曲线有良好的线性关系,表明ERT与HSA的相互作用表现为静态结合过程。HSA的最大发射波长发生轻微红移,说明HSA的微环境发生了改变。ERT与HSA的分子结合距离r值较小,说明发生能量转移现象。同步荧光技术解析出ERT对HSA的结构域微区构象产生影响,使色氨酸残基周围的微区构象及结合位域的疏水性发生改变。荧光相图技术解析出ERT与HSA相互反应呈线性,说明HSA构象型态的变迁为“二态”模型。HSA与ERT相互作用的热力学参数及分子模拟技术建立ERT-HSA结合模型,表明ERT与HSA的相互作用力主要是疏水作用力,兼有氢键作用力的存在。荧光偏振定量证明,HSA与ERT相互作用过程中生成了非共价复合物。光谱实验与计算机模拟结果基本一致,其结果可为研究ERT与HSA相互作用本质提供一定参考。