全氟辛烷磺酸与蛋白质体系的共振光散射光谱及其分析应用

研究了牛血清白蛋白(BSA)与全氟辛烷磺酸(PFOS)相互作用的共振光散射(RLS)光谱,建立了PFOS的共振光散射分析方法。 在pH值为4.1的BR缓冲溶液中,全氟辛烷磺酸根阴离子与质子化的BSA通过静电引力和疏水作用形成离子缔合物,引起共振光散射强度(IRLS)显著增强,最大散射波长位于285.0 nm处,增强的散射信号强度与PFOS浓度在0.2～25.0 μmol/L范围内呈线性关系,据此建立了测定PFOS的光散射分析方法,检出限为20.0 nmol/L。 讨论了体系的最佳反应条件及外来物质的干扰,并探讨了反应机理。 建立的共振光散射法用于环境水样中PFOS的测定,RSD≤4.4%。     

基于与全氟辛烷磺酸作用共振光散射法测定盐酸小檗碱

在pH 1.81 Britton-Robinson缓冲介质中,盐酸小檗碱与全氟辛烷磺酸相互作用,在290 nm处产生显著增强的散射信号.其增强强度与盐酸小檗碱质量浓度在0.03～7.8μg/mL范围内呈线性关系,据此建立了盐酸小檗碱的共振光散射测定方法,检出限达4.4 ng/mL.方法用于药片含量测定,RSD<4.4%...     

盐酸平阳霉素与核酸相互作用的共振Rayleigh散射光谱及其分析应用

用共振Rayleigh散射(Resonance Rayleigh scattering, RRS)光谱结合吸收光谱和荧光光谱研究了盐酸平阳霉素(BleomycinA₅, BLMA₅)与核酸的相互作用. 在pH 2.2左右的酸性介质中, BLMA5能够与核酸结合形成复合物, 引起RRS显著增强, 并产生新的RRS光谱, 具有特征吸收波长红移和分子吸收增色效应, 能观察到BLMA₅的荧光猝灭. 不同核酸的RRS光谱特征略有差异, 最大散射波长分别位于301 nm(ctDNA和sDNA), 370 nm(hsDNA)和310 nm(RNAtypeⅢ和RNAtypeⅥ), 散射增强的程度各不相同, 其中DNA的增强程度比RNA大. 讨论了BLMA₅和核酸反应的最佳反应条件及影响因素, 并对BLMA5与核酸的结合模式、反应机理进行了讨论. 建立了一种以BLMA₅为探针用RRS法测定DNA的高灵敏度、简单、快捷的分析方法. 该方法的检出限(3σ )分别为5.7 ng·mL^-1(ctDNA), 7.4 ng·mL^-1 (sDNA), 9.2 ng·mL^-1 (hsDNA), 能用于痕量DNA的测定.     

光散射/荧光比率法测定全氟辛烷磺酸

在pH=1.81的Britton Robinson（BR）缓冲溶液中,全氟辛烷磺酸（PFOS）与罗丹明B（RhB）通过静电引力和疏水作用使RhB的光散射增强,荧光发生猝灭。 利用在普通荧光光度计上单次扫描获得的340 nm处的光散射强度（I340）与596 nm处的荧光强度（F596）之比,建立了测定PFOS的光散射/荧光比率法,检出限（3σ）为17 nmol/L。 方法用于环境水样中PFOS的测定,RSD≤4.2%。     

荧光素的共振光散射光谱研究

研究了荧光素(nu)的共振光散射(RLS)光谱的形成机理与影响因素.在中性和碱性条件下,Flu溶液的共振散射光显著增强.实验发现,随着溶液pH的增加,Flu溶液的RLS光谱与其荧光光谱、吸收光谱在强度大小、最大吸收峰位移上变化趋势一致.荧光素的荧光激发光谱与发射光谱有部分重叠,共振散射峰处于荧光激发峰与荧光发射峰之间.在光偏振实验中,测得共振散射光的偏振度P≈0.020.碱性环境中,随Flu溶液浓度的增加,其RLS光谱和荧光光谱的变化情况,同样表明两者之间有密切联系.上述实验结果揭示Flu的共振散射光就是共振荧光.     

共振光散射光谱的校正

以罗丹明6G在pH7.40时的共振光散射光谱（RLS）为例,引进仪器特性因子和分子吸收因子讨论荧光分光光度计的检测灵敏度和体系分子吸收对RLS光谱的影响,提出光谱校正方程。在吸收体系中,吸收带附近的散射光强度降低,并导致散射光谱发生畸变。通过光谱校正,除消除了不同仪器因光源和检测系统的差异对RLS光谱特性影响外,有效地消除了分子吸收的影响,提高了测定灵敏度。     

盐酸吡格列酮与曙红Y相互作用的荧光和共振光散射光谱研究

在HCl-NaOAc酸性缓冲介质中,曙红Y(EY)与盐酸吡格列酮(PGH)反应形成1∶1的离子缔合物,不仅引起曙红Y的荧光猝灭(FLU),更能导致共振散射(RRS)的显著增强。荧光猝灭的激发和发射波长分别为λex=524nm和λem=544nm;最大共振散射波长为308nm,并在540nm处产生一共振峰。方法的线性范围分别为9.04×10-7～2.05×10-5mol/L(FLU)和1.6×10-7～5.1×10-6mol/L(RRS),检出限分别为1.88×10-7mol/L(FLU)和4.82×10-8mol/L(RRS)。研究了荧光和共振散射的光谱特征、适宜的反应条件及影响因素,据此建立了灵敏、简便、快速测定抗糖尿病药物盐酸吡格列酮的新方法。     

虎红-牛血清白蛋白共振光散射光谱研究及其分析应用

基于在pH3.0的BR缓冲溶液中蛋白质的加入使虎红的共振光散射信号增强,建立了一种蛋白质测定的新方法.详细地探讨了pH、染料用量、表面活性剂、离子强度、共存物质等对信号的影响.牛血清白蛋白浓度在0～4.0μg/mL范围内与体系散射强度呈线性关系,检出限为0.01718μg/mL.该方法用于合成样品中牛血清白蛋白的测定,...     

聚丙烯酸与核酸相互作用的共振光散射光谱研究及其分析应用

研究了聚丙烯酸(PAA)与脱氧核糖核酸(DNA)相互作用的共振光散射(RLS)光谱.实验结果表明,在pH=2.0的B-R缓冲溶液中,PAA与DNA自身的共振光散射峰均较弱,但当二者发生静电作用形成复合物后,体系的共振光散射峰增强,散射增强程度则各不相同,其相对散射强度的顺序是fsDNA＞ctDNA＞yRNA.在一定范围...     

铜(II)-氟喹诺酮类抗生素螯合物与赤藓红体系的吸收、荧光和共振Rayleigh散射光谱及其分析应用研究

在pH 4.2~5.0的Britton-Robinson 缓冲溶液中, 环丙沙星(CIP), 诺氟沙星(NOR), 氧氟沙星(OF), 左氧氟沙星(LEV), 洛美沙星(LOM)和司帕沙星(SPA)等氟喹诺酮类抗生素(FLQs) 能与铜(II)形成螯合阳离子, 它们能进一步与赤藓红(Ery)阴离子通过静电引力和疏水作用形成FLQs:Cu(II): Ery为1:1:1的离子缔合物. 此时, 能引起吸收光谱的变化, 并发生明显的褪色作用, 最大褪色波长均位于526 nm处, 反应具有较高的灵敏度, 除NOR的摩尔吸光系数(ε)较低外, 其余5种抗生素的ε值均大于1.0×10⁵ L·mol^-1·cm^-1, 而且LOM和OF体系的ε值均大于3×10⁵ L·mol^-1·cm^-1, 而SPA的e 值高达7.22×10⁵ L·mol^-1·cm^-1, 可用于这类药物的分光光度测定. 离子缔合反应还导致赤藓红的荧光猝灭, 反应也具有高灵敏度, 上述6种FLQs药物的检出限在7.1~12.2 μg·L^-1之间, 为荧光猝灭法测定μg·L^-1级FLQs创造了条件. 离子缔合反应更能导致共振瑞利散射(RRS)的显著增强, 并产生新的RRS光谱. 六种药物的反应产物具有相似的光谱特征, 最大散射波长均位于566 nm处, 并在333 nm和287 nm处有2个较小的散射峰. 在一定条件下散射增强(ΔI)与药物浓度成正比. RRS法较褪色分光光度法和荧光猝灭法具有更高的灵敏度, 对不同的FLQs药物的检出限在1.7 μg·L^-1至3.1 μg·L^-1之间, 更适于痕量的FLQs测定. 研究了反应产物的吸收、荧光和RRS光谱特征, 适宜的反应条件及分析化学性质, 结合量子化学计算方法讨论了离子缔合反应的历程及对光谱特征的影响, 并研究了RRS法 的选择性及分析应用.     

Absorption,fluorescence and resonance Rayleigh scattering spectral characteristics of interaction of gold nanoparticle with safranine T

Gold nanoparticle is an important nanomaterial and has been investigated widely owing to its special physical and chemical property[1―5]. In recent years it has been found that the multiple-component nano- structure assembly containing metal, semiconduct…     

Study on the absorption and fluorescence and resonance Rayleigh scattering spectra of Cu (II)-fluoroquinolone chelates with erythrosine and their applications

In pH 4.2-5.0 Britton-Robinson buffer solution medium, fluoroquinolone antibiotics (FLQs), such as ciprofloxacin (CIP), norfloxacin (NOR), ofloxacin (OF), levofloxacin (LEV), lomefloxacin (LOM), and sparfloxacin (SPA), react with Cu (II) to form chelate cations, which further bind with erythrosine to form the ion association complexes. They can result in the changes of the absorption spectra. Simultane- ously, erythrosine fades obviously and the maximum fading wavelength is located at 526 nm. The fad- ing reactions have high sensitivities. Thus, new spectrophotometries of determination for these drugs are developed. The ion-association reactions result in the quenching of fluorescence, which also have high sensitivities. The detection limits for six antibiotics are in the range of 7.1-12.2 μg·L?1. Furthermore, the reactions can result in the enhancement of resonance Rayleigh scattering (RRS). The maximum scattering peaks of six ion-association complexes are located at 566 nm, and there are two small RRS peaks at 333 nm and 287 nm. The detection limits for fluoroquinolone antibiotics are in the range of 1.70 -3.10 μg·L?1 for RRS method. Among the above three methods, the RRS method has the highest sen- sitivity. In this work, we investigated the spectral characteristics of the absorption, fluorescence and RRS, the optimum conditions of the reactions, and the properties of the analytical chemistry. In addi- tion, the mechanism of reactions were discussed by density function theory (DFT) and AM1 methods.     

曙红Y共振光散射探针测定盐酸丙米嗪

在弱酸性介质中,盐酸丙米嗪与曙红Y依靠静电引力和疏水作用力形成离子缔合物,使曙红Y溶液的吸收光谱、荧光光谱和共振光散射光谱发生变化。其中以共振光散射法灵敏度最高。据此,建立了使用曙红Y作为共振光散射探针测定盐酸丙米嗪的新方法。研究了体系的吸收光谱、荧光光谱和共振光散射光谱特征。在最大散射峰364 nm处,测得盐酸丙米嗪的线性范围为0.025～2.5μg/mL,检测限为5.32 ng/mL,并将方法用于药物中盐酸丙米嗪含量的测定。     

Resonance Rayleigh scattering study of the interaction of bleomycinA_5 with nucleic acids and its analytical application

The interaction of bleomycinA5 with nucleic acids has been investigated by using resonance Rayleigh scattering (RRS), molecular absorption and fluorescence spectra. The result shows that in near pH 2.2 buffer medium and absence of any metal ions, nucleic acids are capable of binding with bleomycinA5 (BLMA5) to form complexes which can remarkably enhance the RRS intensity and result in batho- chromic and hyperchromic molecular absorption of nucleic acids and fluorescence quenching of bleomycinA5. The RRS spectral characteristics for the binding products of bleomycinA5 with various DNA and RNA are similar, and the maximum RRS peaks are at 301 nm for ctDNA and sDNA, 370 nm for hsDNA, 310 nm for RNAtypeVI and RNAtypeIII, respectively. The increments of RRS intensity are greatly different in which DNA enhances greatly and RNA enhances lightly. In this work, the optimum condi- tions of the interaction and some influencing factors have been investigated. The reaction mechanism and a binding model for the interaction of BLMA5 with the nucleic acids are discussed. In addition, a highly sensitive, simple and rapid new method for the determination of DNA has been developed. The detection limits (3σ) are 5.7 ng/mL for ctDNA, 7.4 ng/mL for sDNA and 9.2 ng/mL for hsDNA, respectively. The method can be applied to determination of trace amounts of DNA.     

Study on the interaction between diphenhydramine and erythrosin by absorption,fluorescence and resonance Rayleigh scattering spectra

In pH 4.5 Britton-Robinson(BR)buffer solution,erythrosin(ET)can react with diphenhydramine(DP)to form a 1:1 ion-association complex,which not only results in the change of the absorption spectra,but also results in the great enhancement of resonance Rayleigh scattering(RRS)and the quenching of fluorescence.Furthermore,a new RRS spectrum will appear,and the maximum RRS wavelength was located at about 580 nm.In this work,the spectral characteristics of the absorption,fluorescence and RRS,the optimum conditions of the reaction and the properties of an analytical chemistry were inves- tigated.A sensitive,simple and new method for the determination of DP by using erythrosin as a probe has been developed.The detection limits for DP were 0.0020μg/mL for RRS method,0.088μg/mL for absorption method and 0.094μg/mL for fluorophotometry.There was a linear relationship between the absorbance,RRS and fluorescence intensities and the drug concentration in the range of 0.0067-2.0, 0.29-6.4 and 0.31-3.2μg/mL,respectively.The effects of the interaction of diphenhydramine and erythrosin on the absorption,fluorescence and resonance Rayleigh scattering spectra were discussed. In light polarization experiment,the polarization of RRS at maximum wavelength was measured to be P =0.9779,and it revealed that the RRS spectrum of DP-ET complex consists mostly of resonance scat- tering and few resonance fluorescence.In this study,enthalpy of formation and mean polarizability were calculated by AM1 quantum chemistry method.In addition,the reaction mechanism and the rea- sons for the enhancement of scattering spectra and the energy transfer between absorption,fluores- cence and RRS were discussed.     

曙红Y-Triton X-100疏水性氢键纳米微粒的吸收、荧光及共振瑞利散射光谱及其分析应用

在pH2.4～2.8的酸性介质中,曙红Y分子(H2L)取代水分子而与Triton X-100形成氢键缔合物.该疏水性的氢键缔合物,在水相的"挤压"作用和范德华力的作用下,能进一步聚集形成纳米微粒.此时将引起吸收光谱的变化和荧光猝灭,并导致共振瑞利散射(RRS)显著增强,为建立褪色分光光度法、荧光猝灭法和共振瑞利散射法测定Triton X-100创造了条件.三种方法均有较高的灵敏度.其中以RRS法灵敏度最高,对于Triton X-100的检出限为20.6ng/mL.本文研究了曙红Y与Triton X-100相互作用的适宜条件和对吸收、荧光和RRS光谱的影响.考察了共存物质的影响,表明方法有良好的选择性.发展和建立了灵敏、简便、快速测定Triton X-100的分光光度、荧光猝灭法和RRS新方法.文中还结合红外光谱、透射电子显微镜技术和量子化学方法对曙红Y-Triton X-100氢键缔合物及纳米微粒的形成以及对相应的光谱特性的影响进行了讨论,并研究了方法在环境分析中的应用.     

Study on the resonance Rayleigh scattering spectra and resonance non-linear spectra of congo red-amikacin system and its analytical application

The interaction between congo red (CR) and amikacin (AMK) was studied by resonance Rayleigh scattering (RRS), frequency doubling scattering (FDS) and second-order scattering (SOS) combining with absorption spectrum. In a weak acidic medium, CR combined with AMK to form an ion association complex with the composition ratio of 1∶1 by electrostatic interaction, hydrophobicity and charge transferring effect. As a result, the new spectra of RRS, FDS, and SOS appeared and their intensities were enhanced greatly. The maximum wavelengths of RRS, FDS and SOS were located at 563 nm, 475 nm and 940 nm, and the scattering intensities were proportional to the concentration of AMK. These three methods have very high sensitivities, and the detection limits were 4.0 ng·mL?1 for RRS, 3.6 ng·mL?1 for FDS and 1.9 ng·mL?1 for SOS, respectively. At the same time, the methods have better selectivity. A new method for the determination of trace amounts of AMK with congo red by resonance scattering technique has been developed. The recovery for the determination of AMK in blood serum and urine sample was between 95.5% and 105.5%. In this study, the properties, such as enthalpy of formation, charge distribution and mean polarizability, were calculated by AM1 quantum chemistry method. In addition, the reaction mechanism and the reasons for the enhancement of scattering spectra were discussed.     

Resonance Rayleigh scattering study of the interaction of bleomycinA<Subscript>5</Subscript> with nucleic acids and its analytical application

The interaction of bleomycinA5 with nucleic acids has been investigated by using resonance Rayleigh scattering (RRS), molecular absorption and fluorescence spectra. The result shows that in near pH 2.2 buffer medium and absence of any metal ions, nucleic acids are capable of binding with bleomycinA5 (BLMA5) to form complexes which can remarkably enhance the RRS intensity and result in bathochromic and hyperchromic molecular absorption of nucleic acids and fluorescence quenching of bleomycinA5. The RRS spectral characteristics for the binding products of bleomycinA5 with various DNA and RNA are similar, and the maximum RRS peaks are at 301 nm for ctDNA and sDNA, 370 nm for hsDNA, 310 nm for RNAtypeVI and RNAtypeIII, respectively. The increments of RRS intensity are greatly different in which DNA enhances greatly and RNA enhances lightly. In this work, the optimum conditions of the interaction and some influencing factors have been investigated. The reaction mechanism and a binding model for the interaction of BLMA5 with the nucleic acids are discussed. In addition, a highly sensitive, simple and rapid new method for the determination of DNA has been developed. The detection limits (3σ) are 5.7 ng/mL for ctDNA, 7.4 ng/mL for sDNA and 9.2 ng/mL for hsDNA, respectively. The method can be applied to determination of trace amounts of DNA.     

花菁-脱氧核糖核酸的共振光散射光谱及其分析应用

研究了一种苯并噻唑阳离子花菁与脱氧核糖核酸(DNA)作用的共振光散射光谱,在pH 6.0的六次甲基四胺-HCl缓冲介质中,痕量DNA的加入使花菁在590nm的共振光散射强度显著增强。在最佳实验条件下,增强的共振光散射强度与DNA浓度具有良好的线性关系,据此建立了一种测定DNA的共振光散射光谱法。方法的线性范围为:小牛胸腺DNA(CT DNA),0～20μg/mL,鱼精子DNA(FS DNA),0～15μg/mL;检出限分别为0.005μg/mL和0.008μg/mL。该方法已用于合成样品中DNA的测定。