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。     

荔枝红色素分光光度法同时测定痕量价态锡

本文基于常温盐酸介质中 Sn( )、Sn( )与荔枝红色素 ( R)均能瞬时形成于λmax=550 nm的玫瑰红色化合物 ,其吸光度有加合性以及游离 Sn( )和 Sn( )离子存在于 p H不同的特性 ,首次建立不同 p H下相同波长差减法测定痕量价态锡的新方法 ,其 ε=1.7～ 2 .0 (× 10 5) L· mol-1· cm-1,用于检测合成样及鱼制品中 Sn( )与 Sn( ) ,结果满意。     

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。     

蛋白质与邻二氮菲相互作用的单扫描极谱法研究

在pH 4.7的HAc-NaAc缓冲溶液中,邻二氮菲与蛋白质相互作用,使邻二氮菲在-0.99 V (vs.SCE)处的还原峰电流下降,电流降低值与所加的蛋白质(人血清白蛋白、牛血清白蛋白、溶菌酶)的量在一定范围内呈线性关系,线性范围分别为2.0～22,2.0～20,4.0～26 mg/L;检测限分别为1.0,1.0,2.0 mg/L。应用该方法测定了人血清中白蛋白的含量,其结果令人满意。     

蓖麻毒素与其单克隆抗体相互作用动力学研究

表面等离子体激元共振(SPR)是一种可微量、实时、动态地监测生物分子相互作用的生物传感技术。蓖麻毒素为核糖体失活蛋白,具有很强的细胞毒性作用。通过SPR技术研究了两种抗蓖麻毒素的单克隆抗体C5、D12与蓖麻毒素相互作用的动力学,计算出两者的亲和常数分别为2.49×108mol-1·L和7.9×108mol-1·L,并对两种抗体的抗原表位进行了分析。     

鲤幼鱼快速启动游泳能力及电刺激参数的影响

为了研究鲤(Cyprinus carpio)幼鱼快速启动游泳能力并揭示电刺激参数的影响,将90尾鲤幼鱼(体长6.47 cm ±0.09 cm;体重6.36 g±0.03 g)在水温25.0℃±0.5℃的条件下分别采用4个不同的刺激场强(0.25、0.40、0.55和0.70 v·cm-1)和5个不同的刺激历时(10、50、90、130和170 ms)测定实验鱼的快速启动游泳能力.结果表明:电刺激场强由0.25 v·cm-1分别上升至0.40、0.55 v·cm-1时,第一阶段偏转角度(θs1)、第二阶段最大线性加速度(αmax)和速度(Vmax)随刺激场强的升高而显著增大(P＜0.05);而当刺激场强高于0.55 v·cm-1,上述3个参数却无显著差异(P＞0.05);刺激历时在10 ～50 ms范围内,αmax 和Vmax随刺激历时的延长而显著增大(P＜0.05),当刺激历时长于50 ms时上述2个参数均无显著差异(P＞0.05);在场强和历时分别为0.55 v·cm-1和50 ms条件下,鲤幼鱼的θs1、αmax和Vmax分别是(56.51±4.11) deg、(31.60±3.62)m·s-2和(1.34±0.07)m·s-1;鲤幼鱼采取“快速直线”的逃逸策略,具有较强的快速启动游泳能力,鱼类的电刺激反应受刺激参数的影响并且存在阈值.     

XeCl准分子紫外激光辐照生物大分子BSA(V)对其蛋白质结构的影响

XeCl(308 nm)准分子紫外激光(单脉冲输出能量25 mJ,33.3 mJ~34.4 mJ,脉冲频率每秒两次,光斑15 mm×7 mm或4.5 mm×0.5 mm,透镜焦距300 mm),辐照小牛血清白蛋白[bovine serum albumin fraction V,BSA(V)]固体或溶液样品的时间分别为15 s、30 s、45 s或60 s;样品距激光光源的距离分别为:150 mm、250mm、290 mm、340 mm。改变激光参量辐照BSA(V)样品和其对照,用光谱法测试其FT-IR(IR)、Vis-UV(UV)、FR光谱,并比较分析。受辐照后的BSA(V)与主链构象相关的酰胺平面的特征FT-IR谱线,特别是与蛋白质二级结构敏感的酰胺面Ⅰ,1 652 cm-1;与α-螺旋结构相关的FT-IR 1 140 cm-1~500 cm-1;及与蛋白质侧链氨基酸残基Tyr、Phe、Trp相关的特征峰UV277.6 nm、UV216 nm和FR 340 nm、FR 680 nm的峰强度(T%或OD%或Q%)和它们的峰位(cm-1或nm)均受激光辐照的影响,其影响程度与使用的XeCl激光参量的改变有一定的敏感性和相关性。实验结果与讨论对认识激光生物学效应的分子机理、探索建立激光-生物学效应的关系参数,以便进一步发现新的有效的激光生物学效应,发现和认识潜在(后继)的正、负面的激光生物学效应,进而加以调控有一定的理论与实用参考价值。     

荷叶中紫云英苷和牛血清白蛋白相互作用的光谱学研究

本文采用荧光光谱法、紫外光谱法研究在生理条件(pH=7.4)下荷叶中紫云英苷(AST)与牛血清白蛋白(BSA)的相互作用。结果表明AST可与BSA结合并通过静态猝灭作用机制对BSA内源性荧光进行猝灭。在温度为298K及308K时,测得其猝灭速率常数(Kq)分别为4.31×1013L/mol/s和3.72×1013L/mol/s;结合常数(Kd)分别为2.009×105L/mol和0.927×105L/mol;结合位点数(n)分别为0.943和0.893。依据298K时测定的反应自由能变(△G0=-30.25kJ/mol),反应焓变(△H0=-59.02kJ/mol)及反应熵变(△S0=-96.54J/mol/K),结果发现AST与BSA间的结合反应可自发进行且其作用力主要表现为氢键和范德华力。此外,根据Frster非辐射能量转移理论得到AST与BSA之间的结合距离(r)为4.13nm,表明非辐射能量可从BSA转移至AST。     

普通小球藻引发水中17β-雌二醇的光降解

研究了普通小球藻引发水中17β-雌二醇(E2)的光降解,结果表明,在250W高压汞灯(HPML,nm)的照射下,藻浓度为4．0×10^10个·L^-1时,17β-雌二醇的光降解率可达37％．藻浓度为4．2×10^10个·L^-1时,17β-雌二醇浓度在1．5×10^-5-6．0×10^-5mol·L^-1范围内,其光降解速率与初始浓度成正比,反应是假一级．另外,还研究光强、藻悬浮液浓度和17β-雌二醇初始浓度等对此反应体系的影响。     

用高效液相色谱法(HPLC)测定肌苷中有关物质和降解产物

用HPLC测定肌苷中有关物质和降解产物 ,与主药有良好的分离效果。色谱柱为HypersilC1 8(2 5 0mm× 4 .6mm ,5 μm) ,流动相甲醇 -水 (甲醇与水体积比为 10∶90 ) ,流速 1mL·min- 1 ,检测波长 2 4 8nm。     

Microcalorimetric method to determine competitive binding action of a psychotropic drug (dipotassium chlorazepate) on L-tryptophan · human serum albumin complex

A mathematical treatment and an original microcalorimetric method are developed to verify an eventual competitive binding between any two substances for the same macromolecule. To apply this method, a competitive binding of L-tryptophan and one benzodiazepin (dipotassium chlorazepate) for human serum albumin is perfectly demonstrated.The association constants and the enthalpy variations are equal to 14 000 ± 2000 M^?1 and ?6.6 ± 0.2 kcal/mol for human serum albumin · tryptophan complex and 13 000 ± 1000 M^?1 and ?10.0 ± 0.2 kcal/mol for human serum albumin · chlorazepate complex. In all cases the stoichiometry is equal to one.The binding of tryptophan to human serum albumin is partially stereospecific; the association constant and the enthalpy variation for D-tryptophan complex are equal, respectively, to 1000 ± 200 M^?1 and ?2.6 ± 0.3 kcal/mol.     

The effect of albumin,ceruloplasmin, and other serum constitutents on Fe(II) oxidation

This study has analyzed the role of several serum constituents, that have been proposed to effect the following reactionin situ: {fx1-1} {fx1-2} These reactions were monitored by measuring the rate of Fe(II) oxidation in the presence of apo-transferrin (reaction A) and Fe(III)-transferrin formation (reaction B) at 465 nm. Reactions A and B were found to be kinetically equivalent. The results show that, singly or in combination, bicarbonate, orthophosphate, citrate, apo-transferrin, and/or albumin have less than one-tenth of the ability to enhance the oxidation of Fe(II) compared to the serum enzyme, ceruloplasmin. It was also found that the rate of Fe(II) oxidation by serum Fe-ligands was influenced by the efficiency of oxygen utilization. Whereas ceruloplasmin produces a 4∶1 ratio of Fe(II) oxidized to oxygen utilized, the non-enzymic components yield a 2∶1 or 3.09∶1 ratio. These data support the role of ceruloplasmin as an antioxidant that prevents the formation of the intermediate active oxygen species O ₂ ⁻ · and H₂O ₂ ^· through the Fe(II) auto-oxidation reaction. A hitherto unrecognized factor in the control of nonenzymic oxidation of Fe(II) was serum albumin. This protein, at >25 μM, was found to sharply dampen the rate of Fe(II) oxidation in the presence of a physiological concentration of bicarbonate, citrate, and transferrin Albumin did not appear to affect the ceruloplasmin catalyzed oxidation of Fe(II) at pH 7.0. The addition of ceruloplasmin effected up to a 44 × increase in the rate of Fe(II) oxidation and Fe(III)-transferrin formation even in the presence of 0.60 mM albumin.     

Chiral ruthenium complexes induce apoptosis of tumor cell and interact with bovine serum albumin

In this study, two isomeric ruthenium(II) complexes [Ru(bpy)(2)(p-mopip)](2+) (1) and [Ru(bpy)(2)(o-mopip)](2+) (2) (bpy = 2, 2-bipyridine; L: p-mopip = 2-(4-methoxylphenyl) imidazo [4,5-f][1,10]phenanthroline, o-mopip = 2-(2-methoxylphenyl) imidazo[4,5-f][1,10] phenan-throline) contained -OCH(3) at different positions on the phenyl ring and their enantiomers Λ-1, -2 and Δ-1, -2 displayed different properties. The cell viability of these ruthenium(II) complexes was evaluated by MTT, and complex Λ-1 has shown significant higher anticancer potency than Δ-1 against all the cell lines screened. Fluorescence microscopy and flow cytometric analyses demonstrated that complex Λ-1 was able to induce apoptosis. The interactions of complexes Λ-1, 1, and Δ-1 with bovine serum albumin (BSA) were investigated by fluorescence and circular dichroism (CD) measurements. The fluorescence quenching mechanism of BSA by complexes Λ-1, 1, and Δ-1 was determined to be a static process, and the apparent binding constant K(a) values is as follows: Λ-1 >1 > Δ-1. The number of binding sites n for all these complexes was 1. The result of CD showed that the secondary structure of BSA molecules was changed in the presence of the ruthenium(II) complex.     

Study of the Enantioselective Interaction of Diclofop and Human Serum Albumin by Spectroscopic and Molecular Modeling Approaches In Vitro

In this contribution, the enantioselective interactions between diclofop (DC) and human serum albumin (HSA) were explored by steady‐state and 3D fluorescence, ultraviolet‐visible spectroscopy (UV‐vis), and molecular modeling. The binding constants between R‐DC and HSA were 0.9213 × 10⁵, 0.9118 × 10⁵, and 0.9009 × 10⁵ L · mol^‐1 at 293, 303, 313 K, respectively. Moreover, the binding constants of S‐DC for HSA were 1.4766 × 10⁵, 1.2899 × 10⁵, and 1.0882 × 10⁵ L · mol^‐1 at 293, 303, and 313 K individually. Such consequences markedly implied the binding between DC enantiomers and HSA were enantioselective with higher affinity for S‐DC. Steady‐state fluorescence study evidenced the formation of DC‐HSA complex and there was a single class of binding site on HSA. The thermodynamic parameters (ΔH, ΔS, ΔG) of the reaction clearly indicated that hydrophobic effects and H‐bonds contribute to the formation of DC‐HSA complex, which was in excellent agreement with molecular simulations. In addition, both site‐competitive replacement and molecular modeling suggested that DC enantiomers were located within the binding pocket of Sudlow's site II. Furthermore, the alterations of HSA secondary structure in the presence of DC enantiomers were verified by UV‐vis absorption and 3D fluorescence spectroscopy. This study can provide important insight into the enantioselective interaction of physiological protein HSA with chiral aryloxyphenoxy propionate herbicides and gives support to the use of HSA for chiral pesticides ecotoxicology and environmental risk assessment. Chirality 25:719–725, 2013. © 2013 Wiley Periodicals, Inc.     

pH响应型蔗渣木质素水凝胶的制备及其对蛋白质的控释性能

该研究以蔗渣木质素和甲基丙烯酸为原料合成了pH敏感型蔗渣木质素/聚甲基丙烯酸水凝胶,对其合成条件、pH敏感性、溶胀-退溶胀性能以及对牛血清蛋白的控释等性质进行研究,并采用红外光谱、扫描电镜等对凝胶进行表征。结果表明:(1)对凝胶溶胀比影响的因素由大到小依次为甲基丙烯酸用量、交联剂用量、催化剂用量、反应的温度、木质素用量。当甲基丙烯酸单体浓度为1.75 mol·L~(-1)、木质素浓度为25 g·L~(-1)、交联剂浓度为3.25×10~(-2)mol·L~(-1)、引发剂浓度为1.25×10~(-2)mol·L~(-1)、反应温度为65℃时,所得水凝胶在模拟肠液中的溶胀比最大(28.16 g·g~(-1))。与不加木质素的聚甲基丙烯酸水凝胶相比,蔗渣木质素/聚甲基丙烯酸水凝胶的溶胀比有所下降,但其敏感pH由4~5碱移至6~8。(2)蔗渣木质素/聚甲基丙烯酸水凝胶的溶胀—退溶胀可逆性受组成的影响较大,但相对于聚甲基丙烯酸水凝胶,蔗渣木质素/聚甲基丙烯酸水凝胶对pH值的敏感响应性更强、响应速率更快,同时能在更短时间内达到溶胀平衡。(3)加入木质素可以提高水凝胶对牛血清蛋白的负载量,所试验的蔗渣木质素/聚甲基丙烯酸水凝胶样品对牛血清蛋白的最大负载量可达577 mg·g~(-1)。(4)牛血清蛋白在12 h后基本可达释放平衡;在模拟胃液中,牛血清蛋白的释放率仅10%,而在模拟肠液中释放率达92%。pH响应型蔗渣木质素/聚甲基丙烯酸水凝胶可以作为口服型蛋白类药物的潜在载体。     

铽(Ⅲ)与人血清脱铁转铁蛋白结合的荧光光谱研究

在ｐＨ７．４０．１ｍｏｌ／ＬＨｅｐｅｓ及室温条件下,使用荧光光谱进行了Ｔｂ３＋对人血清脱铁转铁蛋白的滴定．结果表明Ｔｂ３＋与人血清脱铁转铁蛋白结合后,其５４９ｎｍ处的荧光强度增强约１０５倍．在５４９ｎｍ处Ｔｂ３＋－脱铁转铁蛋白络合物的摩尔荧光强度是（９．６５±０．０５）×１０４ｍｏｌ－１Ｌ,Ｔｂ３＋可占据脱铁转铁蛋白的两个金属离子结合部位,优先占据脱铁转铁蛋白的Ｃ端结合部位,条件平衡常数是ｌｇＫＣ＝９．９６±０．２０,ｌｇＫＮ＝６．３７±０．１６．Ｔｂ３＋与Ｒ３＋Ｅ（ＲＥ＝Ｎｄ、Ｓｍ、Ｅｕ和Ｇｄ）间的线性自由能关系表明稀土离子占据脱铁转铁蛋白的Ｃ端结合部位时受离子大小的影响     

Sensitive determination of protein based on the fluorescence enhancement effect of terbium (III)–epinephrine–protein–sodium dodecylsulfate system

It was found that the fluorescence of Tb³⁺–epinephrine (E) complex can be enhanced by both bovine serum albumin (BSA) and sodium dodecylsulfate (SDS), and stabilized by ascorbic acid (AA). It is considered that the fluorescence enhancement of the Tb³⁺–E–BSA–AA–SDS system originates not only from the hydrophobic microenvironment provided by BSA–SDS, but also from the energy transfer from BSA to Tb³⁺ in this system. Therefore, a new fluorescence method for the determination of protein concentrations as low as 1.3 × 10^?9 g mL^?1 BSA is established using Tb³⁺–epinephrine complex as probe. The method has been applied for the determination of BSA and human serum albumin in actual samples, and the results obtained are satisfactory. Compared with other fluorescence methods, this method is simpler and more sensitive for the determination of protein. The mechanism of the fluorescence enhancement of the system is studied in detail. Copyright © 2009 John Wiley & Sons, Ltd.     

Synthesis of hydroxyethyl starch 200/0.5-loaded albumin nanoparticles: biocompatibility and interaction mechanism

We aimed to synthesize hydroxyethyl starch (HES) 200/0.5-loaded bovine serum albumin nanoparticles (HBNs) and investigate the compatibility and binding mechanism in simulated physiological environments. Here, to elucidate the morphology, biocompatibility, and formation mechanism of HBNs, techniques such as scanning electron microscopy, haemolysis test, fluorescence, and circular dichroism spectroscopy were applied. The thermodynamic parameters at body temperature (ΔS° = −26.7 J·mol⁻¹·K⁻¹, ΔH° = −3.20 × 10⁴ J·mol⁻¹, and ΔG = −2.35 × 10⁴ J·mol⁻¹) showed a 1:1 binding stoichiometry, which was formed by hydrogen bonds and van der Waals interactions. In addition, the conformational analysis showed that the microenvironment of fluorophores was altered with the adaptational protein secondary structural changes. Energy transfer occurred from the fluorophores to HES with a high possibility. All these results provided accurate and complete primary data for demonstrating the interaction mechanisms of HES with BSA, which helps to understand its pharmaceutical effects in blood.     

人和牛血清白蛋白的极谱测定

人或牛血清白蛋白溶液调至ｐＨ１０并在４℃左右放置３０ｈ,诱导出重复性良好的极谱峰。然后把试样溶液调至适当ｐＨ并记录极谱电流。在浓度低于１．０×１０－５ｍｏｌ／Ｌ时,峰电流对浓度作图是直线,试样浓度可从图上直接读出。对影响白蛋白测定的诸因素作了详细研究和讨论。结果对富含硫的蛋白质的极谱研究有参考价值。     

Characterization of human serum albumin's interactions with safranal and crocin using multi-spectroscopic and molecular docking techniques

Interaction mechanisms of human serum albumin (HSA) with safranal and crocin were studied using UV–Vis absorption, fluorescence quenching and circular dichroism (CD) spectroscopies as well as molecular docking techniques. Changes in absorbance and fluorescence of HSA upon interactions with both compounds were attributed to their binding to amino acid chromophores located in subdomains IIA and IIIA. Fluorescence secondary inner filter effect was excluded using 278 nm and 340 nm as the wavelengths of HSA's excitation and fluorescence while safranal and crocin absorbed at 320 nm and 445 nm, respectively. Stern-Volmer model revealed a static quenching mechanism involve the formation of non-fluorescent ground state complexes. Stern-Volmer, Hill, Benesi-Hilbrand and Scatchard models gave apparent binding constants ranged in 4.25 × 10³ - 2.15 × 10⁵ for safranal and 7.67 × 10³ - 4.23 × 10⁵ L mol^?1 for crocin. CD measurements indicated that 13 folds of safranal and crocin unfolded the α-helix structure of HSA by 7.47–21.20%. In-silico molecular docking revealed selective exothermic binding of safranal on eight binding sites with binding energies ranged in ?3.969 to ?6.6.913 kcal/mol. Crocin exothermally bound to a new large pocket located on subdomain IIA (sudlow 1) with binding energy of ?12.922 kcal/mol.These results confirmed the formation of HSA stable complexes with safranal and crocin and contributed to our understanding for their binding characteristics (affinities, sites, modes, forces … etc.) and structural changes upon interactions. They also proved that HSA can solubilize and transport both compounds in blood to target tissues. The results are of high importance in determining the pharmacological properties of the two phytochemical compounds and for their future developments as anticancer, antispasmodic, antidepressant or aphrodisiac therapeutic agents.