补骨脂素和异补骨脂素与人免疫球蛋白的相互作用

将互为同分异构体的两种植物药活性组分补骨脂素和异补骨脂素作为研究对象, 应用荧光光谱法、紫外光谱法以及红外光谱法并结合分子对接技术对这两种香豆素类化合物与人-γ球蛋白(Human gammago-bulin, HG)的相互作用进行了比较研究. 荧光光谱法研究结果表明, 补骨脂素和异补骨脂素与蛋白之间均有较强的结合(结合常数位于0.251×10⁴～3.503×10⁴之间), 且对HG都表现为静态猝灭. 不同温度(298, 308和318 K)下两种药物与HG相互作用的结合参数均有所差别, 维持药物-蛋白质体系的作用力也不相同. 依据Förster能量转移理论, 得到补骨脂素和异补骨脂素分子与蛋白质色氨酸残基间的结合距离r值(分别为3.65和4.21 nm)都小于7 nm, 说明发生了能量转移. 利用同步荧光与红外光谱法研究了药物对蛋白质二级结构的影响. 分子对接研究结果表明, 这两种药物与蛋白有相似的结合区域和相同的结合模式.     

头孢哌酮钠与牛转铁蛋白之间相互作用的光谱法与同步荧光光谱法比较研究

通过荧光猝灭法和同步荧光光谱法对头孢哌酮钠与牛转铁蛋白的相互作用机理进行了研究。结果表明,两种方法用相同的公式计算得到的二者的猝灭机理、结合位点,相互作用力以及协同作用基本一致。并且通过对Δλ=60 nm和λ_(ex)=295 nm的数据进行比较,得出同步荧光光谱法较之于传统荧光光谱法有更高的灵敏度和准确度。因此,同步荧光光谱法极大地丰富了小分子配体与蛋白之间相互作用机理的研究的方法。     

罗非昔布与牛血清白蛋白之间相互作用的研究

在模拟人体生理条件下,通过荧光光谱法、紫外光谱法、红外光谱法和分子对接等技术探究罗非昔布(RFB)与牛血清白蛋白(BSA)之间相互作用的化学本质。研究结果表明,RFB与BSA的Trp/Tyr残基之间的π-π堆积作用诱导了BSA的荧光发生猝灭,其猝灭机制为静态猝灭并且伴随着非辐射能量的转移;热力学参数表明RFB-BSA可以自发地通过氢键与范德华力进行结合,二者之间的结合距离r_0=3.50 nm,且结合位点数为1;同步荧光和分子对接结果证明RFB与BSA在结合位点Ⅰ结合;三维荧光光谱与红外光谱揭示了RFB导致BSA蛋白质二级结构发生变化,其中α-螺旋和β-片层结构含量下降,β-折叠和β-转角含量上升。     

荧光光谱法研究山姜素与牛血清白蛋白的相互作用机理

研究了模拟生理条件下,山姜素与牛血清白蛋白(BSA)的相互作用。山姜素猝灭BSA为静态猝灭过程,获得了不同温度下山姜素与BSA的结合常数和结合位点数。考察了Mg2+、Ca2+、Zn2+、Cu2+等金属离子对结合作用的影响。热力学参数研究发现静电作用力为山姜素与BSA的主要结合力。根据Frster非辐射能量转移理论,计算了山姜素与BSA之间的结合距离r0为4.07nm。同步荧光光谱法研究结果表明山姜素对酪氨酸残基的微环境产生了影响,使其疏水性增强,而对色氨酸残基的微环境没有产生影响。     

S/R构型烟碱与胰蛋白酶作用机制的研究

在模拟人体生理条件下,应用稳态荧光光谱和紫外可见吸收光谱手段辅助分子对接技术,重点考察了烟碱(NIC)两种对映体与胰蛋白酶(TYP)相互作用的荧光猝灭机理、构象变化及结合模式。结果表明,S-NIC与TYP碰撞结合形成激态复合物而猝灭TYP的内源性荧光,而R-NIC与TYP结合的猝灭机理为动静态结合的混合猝灭类型。R-NIC对TYP荧光猝灭的能力强于S-NIC,且结合常数(Ka)大于S-NIC,但二者在TYP活性空腔中均只有1个高亲和位点。热力学研究结果表明,S-NIC和R-NIC与TYP结合时活化能差异较大,R-NIC与TYP碰撞结合所需能量更小。同步和三维荧光光谱研究发现,NIC两种对映体均诱导了TYP的微环境和构象发生变化。分子对接结果表明,两种对映体均稳定结合于TYP分子的SER-195附近,且R-NIC与氨基酸残基SER-214形成氢键。     

两种组氨酸酰胺衍生物的合成及其与人血清白蛋白的结合

L-组氨酸对生物有机体有着良好的亲和能力,通过修饰其化学结构以期寻找药理活性和生物利用度高的衍生物。本文将L-组氨酸分别与反式肉桂酸和对甲氧基肉桂酸反应,合成了两种组氨酸酰胺类衍生物,利用傅里叶变换红外光谱、质谱、氢谱/碳谱核磁共振谱进行了结构表征。采用分子操作环境(MOE)软件分子对接技术、荧光光谱法、同步荧光光谱法(SFS)、紫外-可见光谱法(UV-Vis),共同研究了两种衍生物分别和人血清白蛋白(HSA)相结合的机理。MOE对接结果显示,这两种衍生物与HSA的模拟结合能分别为-13.82和-16.25 kcal/mol,主要是通过范德华力和疏水作用结合在HSA亚结构域ⅡA(即siteⅠ)的疏水腔内。荧光猝灭数据表明,衍生物与HSA相互作用并形成了新的基态配合物,荧光猝灭过程为静态猝灭;不同温度(300、305和310 K)下衍生物与HSA相互作用的结合常数分别为1.773×104、6.354×10~3、1.260×10~3和5.314×10~4、4.614×10~3、1.420×10~3;由热力学参数得到衍生物与HSA的结合过程是由范德华力驱动;SFS表明,衍生物使得HSA的二级结构发生了变化。结合UV-Vis的结果可以确定,在体外生理条件下,组氨酸酰胺类衍生物均可以通过范德华力与HSA结合,并对HSA内源荧光产生静态猝灭及构象影响,这与分子对接结果一致,从而为组氨酸酰胺类衍生物药物的进一步开发提供了参考。     

基于分子模拟和光谱法分析漆酶与甲酚的相互作用

该文运用计算模拟与光谱法研究了甲酚与漆酶的相互作用。首先,计算模拟表明漆酶与3种甲酚同分异构体都能发生相互作用,分子对接研究结果表明漆酶与甲酚同分异构体能以氢键和疏水作用力相结合,且结合位点相似。通过分子动力学模拟比较漆酶结合甲酚前后残基的柔性差异,验证了分子对接结合位点的可靠性。其次,选取计算模拟中结果较好的间甲酚,利用光谱法探究间甲酚与漆酶的荧光猝灭机制及结合前后漆酶二级结构的变化。荧光猝灭实验证实漆酶与间甲酚间是形成非荧光复合物的静态猝灭,与分子对接结果一致。红外光谱研究结果表明,漆酶与间甲酚结合后二级结构发生变化,其内部的β-转角和β-反向平行结构向β-折叠、无规则卷曲和α-螺旋结构转化,这与分子动力学模拟结果相呼应。该研究为利用漆酶转化环境中甲酚污染物提供了理论基础与数据支持。     

全氟丙酸与人血清白蛋白结合作用机制的计算模拟与光谱法研究

通过分子对接和动力学模拟的计算方法模拟人血清白蛋白(HSA)的三维空间结构,建立了HSA与全氟丙酸(IPC-PFFA-3)相互作用的模型,研究了HSA与全氟丙酸复合物在水溶液中的稳定性以及在结合位点中的动力学性质。在模拟人体生理的实验条件下,采用荧光光谱法和同步荧光光谱法研究了HSA与IPCPFFA-3的相互作用。实验结果表明,IPC-PFFA-3与HSA形成的复合物HSA-IPC-PFFA-3对HSA产生荧光猝灭作用,其猝灭机理是静态猝灭;热力学参数计算得出两者结合的主要作用力为氢键作用力;竞争实验的结果表明IPC-PFFA-3与HSA的结合位点位于HSA的SiteⅡ,与分子对接的模拟结果相吻合。同步荧光光谱实验与动力学模拟的结果证明IPC-PFFA-3与HSA能够稳定结合,并使HSA的构象发生变化。     

荧光光谱在研究氯霉素与沙拉沙星间拮抗作用中的应用

氯霉素(CHL)和沙拉沙星(SLFX)均能够猝灭牛血清白蛋白(BSA)的荧光. 当两种药物共存时使BSA荧光进一步猝灭, 据此利用荧光光谱法研究了氟喹诺酮类药物SLFX与CHL间相互作用. 结果表明: 两种药物间存在拮抗作用, 使药物与蛋白的结合稳定性增加, 致使能够转运到作用部位产生药理效应的游离型药物含量减少, 造成药效降低; 药物对蛋白荧光的猝灭属于静态猝灭; 药物与蛋白结合位点数约为1. 根据Forster非辐射能量转移理论, 确定了药物与蛋白之间的结合距离r, 药物间拮抗作用的存在使r值降低, 结合距离减小. 同步荧光光谱研究表明, 药物间的拮抗作用对蛋白质构象产生影响, 使蛋白质分子伸展, 疏水性降低.     

光谱法结合分子对接研究血清蛋白对吴茱萸次碱的识别作用

利用荧光光谱法与分子对接模拟计算系统地研究了吴茱萸次碱同牛血清白蛋白及人血清白蛋白间相互作用情况。荧光光谱实验结果表明,在37℃及生理p H条件下的水溶液中,吴茱萸次碱可以有效地猝灭牛血清白蛋白与人血清白蛋白的荧光发射。根据Stem-Volmer方程及双对数方程计算可知,吴茱萸次碱对牛血清蛋白与人血清白蛋白的荧光猝灭均为静态猝灭,吴茱萸次碱可以同这两种蛋白质形成1:1型稳定的复合物。采用了恒波长同步荧光法研究了吴茱萸次碱与这两种血清蛋白可能的结合位点,并且通过分子对接模拟计算方法推测了吴茱萸次碱与这两种血清蛋白可能的结合模型,结果表明,吴茱萸次碱与血清蛋白最有可能的结合位点为Trp213残基(牛血清白蛋白)或Trp214残基(人血清白蛋白)附近。     

Multi-spectroscopic Investigations of Aspirin and Colchicine Interactions with Human Hemoglobin: Binary and Ternary Systems

The interactions of colchicine (COL) and aspirin (ASA) with human hemoglobin (HB) was studied by fluorescence, UV/vis absorption, resonance light scattering, synchronous fluorescence and circular dichroism (CD) spectroscopic techniques under physiological conditions. The inherent binding information, including the quenching mechanism, binding constants, number of binding sites, effective quenching constant, fraction of the initial fluorescence and thermodynamic parameters were determined by the fluorescence quenching technique at different temperatures. The results proved that the mechanism of fluorescence quenching of HB by COL and ASA is due to formation of HB–drug complexes in the binary and ternary systems. The distance between the acceptor drugs and HB was estimated by Förster’s equation on the basis of fluorescence energy transfer. In addition, according to the synchronous fluorescence spectra of HB, the results showed that the fluorescence quenching of HB originated solely from the tryptophan residues and indicated a conformational change for HB caused by addition of the drugs. Far-UV CD spectra of HB were recorded before and after the addition of ASA and COL both as binary and ternary systems. An increase in intensity of the positive CD peak of HB was observed in the presence of these drugs. The results were interpreted as excited state interactions between the aromatic residues of the HB binding sites and the drugs bound to them.     

Study on the Synergism Effect of Lomefloxacin and Ofloxacin for Bovine Serum Albumin in Solution by Spectroscopic Techniques

Both lomefloxacin (LOM) and ofloxacin (OFL) have a powerful ability to quench the fluorescence of bovine serum albumin (BSA). The fluorescence quenching action is much stronger when the two drugs coexist. The synergism between LOM and OFL was studied using fluorescence and ultraviolet spectroscopy under imitated physiological conditions. The results show that static quenching and non-radiation energy transfer are the main reasons for the fluorescence quenching. The synergism results in both the reduction of the binding stability between drugs and BSA and an increase of the free drug concentration, which will increase the efficacy of drugs. The thermodynamic parameters at different temperatures were calculated and the binding distances r between the drugs and BSA were obtained based on Försters theory of non-radiation energy transfer. The synchronous fluorescence spectra indicated that the effect of synergism affected the conformation of BSA.     

碱性橙与蛋白间的特异性与非特异性作用荧光光谱比较

将碱性橙与抗体的作用、碱性橙与牛血清白蛋白(BSA)间的作用分别作为特异性作用和非特异性作用模型,采用荧光光谱法固定激发波长为280 nm,扫描不同温度下碱性橙与抗体和牛血清白蛋白两种相互作用,在300～600 nm的发射波长,比较了两种相互作用的差异.结果表明,碱性橙与抗体结合为单一的静态猝灭过程,二者之间的作用力主要为静电作用力;在溶液中,二者以摩尔比1∶1结合,结合常数为3.88×104 L/mol(25.C),3.73×104 L/mol(37.C)和2.35×104 L/mol (45.C);碱性橙距抗体分子色氨酸残基最短距离(r)为5.52 nm.碱性橙与BSA的结合也为静态猝灭,作用力为静电作用力.但碱性橙与抗体作用过程中形成了激基复合物,与BSA则不形成激基复合物.     

Separation and determination of alpinetin and cardamonin in Alpinia katsumadai Hayata by flow injection-micellar electrokinetic chromatography

A simple, rapid, and accurate method for the separation and determination of alpinetin and cardamonin in Alpinia katsumadai Hayata was developed by combination of flow injection (FI)-micellar electrokinetic chromatography (MEKC) for the first time. The analysis was carried out using an unmodified fused-silica capillary (50 μm i.d.; total length 13.6 cm; effective length 10.3 cm) and direct ultraviolet (UV) detection at 214 nm. The sample throughput was 11-24 samples per hour using the background electrolyte (BGE) containing 4 mM sodium borate-8 mM NaH₂PO₄ (pH 8.1)-8 mM sodium dodecyl sulfate (SDS)-19% (v/v) ethanol. The repeatabilities (n = 4) reached relative standard deviation values (R.S.D.) of 3.0% and 2.5% for the peak areas and 2.5% and 3.1% for peak heights of alpinetin and cardamonin, respectively. Regression equations revealed linear relationships (r²: 0.9993-0.9994) between the peak area of each analyte and the concentration. Recoveries were in the range 90-92% and 99-105% for alpinetin and cardamonin, respectively.     

Interactions of Gold Nanoparticles and Lysozyme by Fluorescence Quenching Method

The fluorescence quenching technique was applied to study the interactions between lysozyme and Gold nanoparticles (GNPs). GNPs were synthesized by microwave assisted heating under reflux, using trisodium citrate as the reducing agent. The UV-visible spectra and TEM image were used to characterize the GNPs. The GNPs had a maximum absorption peak at 520 nm, with an average diameter of 13.3 nm. The fluorescence quenching mechanism was studied by Stern-Volmer equation. It was proved that the fluorescence quenching of lysozyme by GNPs was mainly a result of the formation of a lysozyme-GNP complex. Experimental results indicated that the combination reactions of GNPs and lysozyme were static quenching processes. It can be expected that the fluorescence quenching technique could provide a promising tool to study the interactions of GNPs and proteins. The binding constants, the number of binding sites at different temperatures and corresponding thermodynamic parameters ΔG, ΔH, and ΔS were also calculated.     

Use of spectroscopic, zeta potential and molecular dynamic techniques to study the interaction between human holo-transferrin and two antagonist drugs: comparison of binary and ternary systems

For the first time, the binding of ropinirole hydrochloride (ROP) and aspirin (ASA) to human holo-transferrin (hTf) has been investigated by spectroscopic approaches (fluorescence quenching, synchronous fluorescence, time-resolved fluorescence, three-dimensional fluorescence, UV-vis absorption, circular dichroism, resonance light scattering), as well as zeta potential and molecular modeling techniques, under simulated physiological conditions. Fluorescence analysis was used to estimate the effect of the ROP and ASA drugs on the fluorescence of hTf as well as to define the binding and quenching properties of binary and ternary complexes. The synchronized fluorescence and three-dimensional fluorescence spectra demonstrated some micro-environmental and conformational changes around the Trp and Tyr residues with a faint red shift. Thermodynamic analysis displayed the van der Waals forces and hydrogen bonds interactions are the major acting forces in stabilizing the complexes. Steady-state and time-resolved fluorescence data revealed that the fluorescence quenching of complexes are static mechanism. The effect of the drugs aggregating on the hTf resulted in an enhancement of the resonance light scattering (RLS) intensity. The average binding distance between were computed according to the forster non-radiation energy transfer theory. The circular dichroism (CD) spectral examinations indicated that the binding of the drugs induced a conformational change of hTf. Measurements of the zeta potential indicated that the combination of electrostatic and hydrophobic interactions between ROP, ASA and hTf formed micelle-like clusters. The molecular modeling confirmed the experimental results. This study is expected to provide important insight into the interaction of hTf with ROP and ASA to use in various toxicological and therapeutic processes.     

A comparison of the inclusion behavior of human serum albumin and holo transferrin with fluoxymesterone in the presence of three different cyclodextrins

This article describes the interaction of fluoxymesterone (Flu) with HSA and HTF in the absence and presence of cyclodextrins (CDs) (α, β and γ). According to fluorescence data, the binding of Flu to the proteins caused strong static quenching in the binary and ternary systems. The fluorescence quenching results demonstrated that HSA and HTF had two and one class of apparent binding sites with a distinct binding constant in the presence of the CDs, respectively. The effects of Flu on the structure of HSA and HTF were analyzed using synchronous fluorescence spectroscopy, which showed that the interaction of Flu with both proteins in the binary and ternary systems altered the microenvironment around the Trp and Tyr residues. The distance, r, between Flu and the proteins was obtained according to FRET which pointed at a successful formation of a drug-protein complex. Far-UV CD spectra indicated that the binding of the drug to both proteins induced changes in the secondary structure of HSA and HTF in the binary and ternary systems. Finally, molecular modeling provided possible binding sites of Flu within the proteins for the binary and ternary systems and also confirmed the experimental results. The obtained data can be useful for determining usage drug doses in drug delivery.     

嘧啶衍生物与人血清白蛋白的相互作用

在模拟生理条件下,运用荧光光谱、激光闪光光解(LFP)和分子对接等技术研究了8种具有抗肿瘤活性的嘧啶衍生物(PDs,其中PDs A 5-FU为成药,PDs B-H为实验室自制)与人血清白蛋白(HSA)的相互作用.利用Stern-Volmer方程和激光闪光光解技术分析了PDs对HSA的荧光猝灭机制,PDs A和B为静态猝灭,PDs G和H为动态猝灭.用双倒数曲线法得出5种PDs与HSA的结合常数Ka和结合位点数n,在测定条件下5种PDs与载体结合位点数均为1,且均以弱结合力结合,通过热力学参数ΔH,ΔS和ΔG推测出PDs B,C和E与HSA之间的作用力为静电作用力和疏水作用力,PDs A和D与HSA之间的作用力是氢键和范德华力,分子对接结果与其一致.根据F9rster非辐射能量转移理论(FRET)分析了HSA和PDs之间的结合距离(r),其结果均小于4 nm,符合能量转移理论.进一步利用同步荧光、三维荧光和圆二色光谱考察了PDs与HSA结合过程中HSA空间构象的变化,结果显示,仅PDs A和C对HSA的芳香族氨基酸周围的疏水性略有增强作用.体外实验结果表明,HSA可以作为优良的载体来运输和储存PDs A~E,这为嘧啶衍生物的后续研究提供了可参考的实验数据.