共振光散射新方法定量分析蛋白质
摘要
共振光散射(RLS)光谱法二十世纪90年代发展起来的一种分析测试新技术。1995年,共振光散射技术作为一种研究生色团聚集的方法被Pasternack正式提出。随着共振光散射技术在理论和分析方法上的日趋成熟,共振光散射技术以其简单的操作,较高的灵敏度广泛应用于蛋白质、核酸、药物、细胞、金属离子、非金属离子、纳米粒子和表面活性剂等的分析。共振光散射法与一般的荧光法相比有更高的灵敏度,可以用于稀溶液的研究;检测更为方便,并可研究共振光散射光谱特征;可为研究分子结构和反应特征提供更丰富的信息;共振瑞利散射对于大分子非键作用,如缔合、聚集、偶极-偶极作用、长距离组装非常敏锐,这对于生物大分子的测定、表征及反应历程的研究极为有利。但是共振光技术还存在着不足之处,譬如抗干扰能力不强,其共振光散射信号易受到外来共存物质的干扰;重现性不好;油溶性试剂中使用不便等。
本论文在总结前人工作基础上,对共振光散射法测定蛋白质进行了创新性的研究:
1、将自行组装的流动注射装置与荧光光谱仪联用,确立了流动注射-共振光散射联用测定人血清样品中蛋白质含量的新方法,提高了共振光散射技术的重现性和稳定性。
2、建立了聚乙二醇辛基苯基醚-蛋白质-亮丽春红5R三元体系检测人血清中蛋白质含量的新方法,提高了检测的灵敏度。
论文共分为三章:
第一章:简要介绍了共振光散射技术的原理和应用,以及共振光散射分析新方法的发展。并且对实验中用到的表面活性剂的在共振光散射检测中的应用进行了简单综述。
第二章:用十二烷基硫酸钠作为探针,在流动注射-共振光散射联用系统中在线测定人血清中蛋白质的含量。该体系对人血清白蛋白检测的线性范围在3.0-28.0μg/mL之间,检测限为70ng/mL,检测结果的相对标准偏差不大于2.12%,样品回收率在97.83-106.09%之间。该方法克服了不稳定体系重现性较差的缺点,分析速度快,灵敏度高,实现了蛋白质的在线检测。
第三章:基于在pH2.11的酸性溶液中,聚乙二醇辛基苯基醚(OP)对亮丽春红5R-蛋白质体系的共振光散射信号有强烈的增敏现象,建立了聚乙二醇辛基苯基醚-蛋白质-亮丽春红5R三元体系测定人血清中蛋白质浓度的新方法。该体系对人血清白蛋白检测的线性范围在0-10.0μg/mL之间,检测限为5ng/mL,检测实际样品的回收率在97.80-109.62%之间,该方法令人满意。
Rayleigh light scattering (RLS) is a new technology developed in 1990s for trace analysis. It was founded by Pasternalk et al in 1993. There are more researches and applications of RLS recently. It is widely used in the research and determination of proteins, nucleic acids, carbohydrates, medication, non-particle, inorganic particles and surfactants and shows great foreground of use. Comparing with other methods, the RLS method has more acuminous sensitivity, more simple manipulation. And it is able to provide details for molecule's configuration. However, the RLS method has disadvantage in reproducibility and stability.
In this dissertation, on the basis of the previous research, novel Rayleigh light scattering methods were developed to investigate the quantification of proteins in human blood serum. The following major innovative works were carried out:
1: The flow injection combined with Rayleigh light scattering technique was used to quantify the protein in human serum samples. The homemade instruments of flow injection were connected with spectrofluorophotometer. Protein in human serum samples were determined using the combination technique mentioned above, the results' reproducibility and stability were elevated.
2: A novel system of OP-HSA- Brilliant ponceau 5R was founded for the quantitative detection of protein in human serum samples by Rayleigh light scattering. The method had getten more acuminous sensitivity.
This dissertation consists of three chapters:
Chapter 1: The principles, up to date applications and novel development of Rayleigh light scattering were briefly described. And the surfactants used in this dissertation were mentioned.
Chapter 2: A novel flow injection analysis (FIA) method coupled with Rayleigh light scattering (RLS) was developed for the determination of protein concentrations. This method is based on that the weak intensity of RLS signals of dodecane-1-sulfonic acid sodium salt can be enhanced by the addition of protein in weakly acidic solution. The determination limit was 70ng/mL for human serum albumin, the linear range was 3.0-28.0μg/mL, the maximum relative standard deviations (R.S.D.) was no more than 2.12% and the recovery of the samples was between 97.83-106.09%. The FIA-RLS method was more stabile, rapid, and reproducible than the general RLS method.
Chapter 3: In the presence of OP and in the pH2.11 buffer, the Brilliant ponceau 5R combined proteins to form complex, causing an enhance of RLS signals. The sensitivity raised 2 times in the presence of OP. For human serum albumin, the linear range was 0-10.0μg/mL, and the determination limit was 5ng/mL. The recovery of the samples was between 97.80-109.62%. This method was more sensitive than the general RLS method and obtained satisfactory results.
本论文在总结前人工作基础上,对共振光散射法测定蛋白质进行了创新性的研究:
1、将自行组装的流动注射装置与荧光光谱仪联用,确立了流动注射-共振光散射联用测定人血清样品中蛋白质含量的新方法,提高了共振光散射技术的重现性和稳定性。
2、建立了聚乙二醇辛基苯基醚-蛋白质-亮丽春红5R三元体系检测人血清中蛋白质含量的新方法,提高了检测的灵敏度。
论文共分为三章:
第一章:简要介绍了共振光散射技术的原理和应用,以及共振光散射分析新方法的发展。并且对实验中用到的表面活性剂的在共振光散射检测中的应用进行了简单综述。
第二章:用十二烷基硫酸钠作为探针,在流动注射-共振光散射联用系统中在线测定人血清中蛋白质的含量。该体系对人血清白蛋白检测的线性范围在3.0-28.0μg/mL之间,检测限为70ng/mL,检测结果的相对标准偏差不大于2.12%,样品回收率在97.83-106.09%之间。该方法克服了不稳定体系重现性较差的缺点,分析速度快,灵敏度高,实现了蛋白质的在线检测。
第三章:基于在pH2.11的酸性溶液中,聚乙二醇辛基苯基醚(OP)对亮丽春红5R-蛋白质体系的共振光散射信号有强烈的增敏现象,建立了聚乙二醇辛基苯基醚-蛋白质-亮丽春红5R三元体系测定人血清中蛋白质浓度的新方法。该体系对人血清白蛋白检测的线性范围在0-10.0μg/mL之间,检测限为5ng/mL,检测实际样品的回收率在97.80-109.62%之间,该方法令人满意。
Rayleigh light scattering (RLS) is a new technology developed in 1990s for trace analysis. It was founded by Pasternalk et al in 1993. There are more researches and applications of RLS recently. It is widely used in the research and determination of proteins, nucleic acids, carbohydrates, medication, non-particle, inorganic particles and surfactants and shows great foreground of use. Comparing with other methods, the RLS method has more acuminous sensitivity, more simple manipulation. And it is able to provide details for molecule's configuration. However, the RLS method has disadvantage in reproducibility and stability.
In this dissertation, on the basis of the previous research, novel Rayleigh light scattering methods were developed to investigate the quantification of proteins in human blood serum. The following major innovative works were carried out:
1: The flow injection combined with Rayleigh light scattering technique was used to quantify the protein in human serum samples. The homemade instruments of flow injection were connected with spectrofluorophotometer. Protein in human serum samples were determined using the combination technique mentioned above, the results' reproducibility and stability were elevated.
2: A novel system of OP-HSA- Brilliant ponceau 5R was founded for the quantitative detection of protein in human serum samples by Rayleigh light scattering. The method had getten more acuminous sensitivity.
This dissertation consists of three chapters:
Chapter 1: The principles, up to date applications and novel development of Rayleigh light scattering were briefly described. And the surfactants used in this dissertation were mentioned.
Chapter 2: A novel flow injection analysis (FIA) method coupled with Rayleigh light scattering (RLS) was developed for the determination of protein concentrations. This method is based on that the weak intensity of RLS signals of dodecane-1-sulfonic acid sodium salt can be enhanced by the addition of protein in weakly acidic solution. The determination limit was 70ng/mL for human serum albumin, the linear range was 3.0-28.0μg/mL, the maximum relative standard deviations (R.S.D.) was no more than 2.12% and the recovery of the samples was between 97.83-106.09%. The FIA-RLS method was more stabile, rapid, and reproducible than the general RLS method.
Chapter 3: In the presence of OP and in the pH2.11 buffer, the Brilliant ponceau 5R combined proteins to form complex, causing an enhance of RLS signals. The sensitivity raised 2 times in the presence of OP. For human serum albumin, the linear range was 0-10.0μg/mL, and the determination limit was 5ng/mL. The recovery of the samples was between 97.80-109.62%. This method was more sensitive than the general RLS method and obtained satisfactory results.
引文
[1]章燕豪主编.物理化学[M].上海交通大学出版社.1988,pp 537.
[2]赵凯华,钟锡华.光学,下册[M].北京大学出版社.1982:249-252.
[3]李原芳,黄承志,胡小莉.共振光散射技术的原理及其在生化研究和分析中的应用[J].分析化学.1998,26(12):1508-1515.
[4]Rmana C V,Krishnan K S.A New Type of Secondary Radiation Nature[J].1928,121:501-502.
[5]叶勇,胡继明,曾云鹦.大学化学.1998,13:6.
[6]李帮军.对样品实验比较测试与拉曼光谱分析[J].物理与工程.2005,15(6):41-44.
[7]Eckhardt G,Wagner W G.On the Calculation of Absolute Ramam Scattering Cross Section from Ramam Scattering Coefficients[J].J.Molec.Spect.1966,19(4):409-411.
[8]Lempert W,Wang C H,Studies of shear waves and translation-rotation coupling of liquid nitrobenzene in neat liquid and in carbon tetrachloride solution by depolarized Rayleigh scattering[J].J.Chem.Phys.1980,72:3490-3495.
[9]Kuiper G P.The Atmospheres of the Earth and Planets,2nd ed.,Chap.12,Univ.of Chicago Press,Chicago,1952.
[10]Debye P.Light Scattering in Solutions[J].J.Appl.Phys.1994,15:338-342.
[11]Magdalena M,Marek K,Zdzislaw B,Iwona I K.Rayleigh scattering study of selected polymers[J].Proceedings of SPIE-The International Society for Optical Engineering.2003.pp5229.
[12]Dollinger G,Cunieo B,Kunitani M,Johnson D,Jones R.Practical online determination of biopolymer molecular weights by high-performance liquid chromatography with classical light-scattering detection[J].Journal of Chromatography.1992,592(1-2):215-228.
[13]Toporowski P M,Roovers J.The Intramolecular Scattering Function of Model Branched Polymers[J].Macromolecules.1978,11:365-368.
[14]Sun Z,Tomlin C D,Sevick-Muraca E M.Approach for Particle Sizing in Dense Polydisperse Colloidal Suspension Using Multiple Scattered Light[J].Langmuir.2001,17(20):6142-6147.
[15]Kratochivil P.Advances in classical light scattering from polymer solutions[J].Pure and Appl.Chem.1982,54(2):379-394.
[16]Tupitsyn V P,Kashcheev I N.Rayleigh light scattering in the carbon tetrachloride-1,4-dioxane system[J].Zhurnal Fizicheskoi Khimii.1988.62(9):2496-2498.
[17]Blaszczak Z.The influence of molecular interactions on optical orientation of pyridine methyl derivatives.2.Optical birefringence and light scattering studies[J].Acta Physica Polonica A.1985,A68(4):629-636.
[18]Huglin M B.Light Scattering from Polymer Solution[J].Academic Press,London and New York,1972.
[19]Anglister J,Steinberg I Z.Resonance Rayleigh scattering of cyanine dyes in solution[J].J.Chem.Phys.1983,78:5358-5368.
[20]Placzek G.Akademisehe Verlagsgesellsehaft Leipzig,1934,part 2,pp.205.
[21]Bauer D R.Hudson B,Pecora R.Resonance enhance depolarized rayleigh scattering from diphenylpolyenes[J].J.Chem,Phys.1975,63:588-589.
[22]Miller G A.Fluctuation theory of the resonance enhancement of Rayleigh scattering in absorbing media[J].J.Phys.Chem.1978,82:616-618.
[23]Stanton S G,Recora R,Hudson B S.Resonance enhanced dynamic Rayleigh scattering[J].J.Chem.Phys.1981,75:5615-5626.
[24]Anglister J,Steinberg I Z.Depolarized Rayleigh light scattering in absorption bands measured in lycopene solution[J].Chem.Phys.Lett.1979,65:50-54.
[25]Anglister J,Steinberg I Z.Measurement of the depolarization ratio of Rayleigh scattering at absorption bands[J].J.Chem.Phys.1981.74:786-791.
[26]张爱梅,李林尉,臧运波.考马斯亮蓝-SLS体系共振瑞利散射法测定蛋白质[J].分析科学学报.2006.22(1):80-83.
[27]魏永巨.北京大学博士论文.1997.
[28]李原芳,黄承志,胡小莉.共振光散射技术的原理及其在生化研究和分析中的应用[J].分析化学.1998,26(12):1508-1515.
[29]Pasternaek R F,Bustamante C,Collings P J,et al.Porphyrin Assemblies on DNA as Studied by a Resonance Light-Scattering Technique[J],J Am Chem Soc,1993,115:5393-5399
[30]Pasternack R F,Schaefer K S,Hambright P.Resonance light-scattening studies of porphyrin diacid aggregate[J].Inorg.Chem.1994,33:2062-2065.
[31]Pasternack R F,Collings P J.Resonance light scattering:a new technique for studying chromophore aggregation[J].Science.1995,269:935-939.
[32]刘保生,张红医,张红蕾,赵勇.氯酚红-蛋白体系的共振光散射法定量测定蛋白质[J].光 谱学与光谱分析.2003,23(2):229-231.
[33]Li Y F,Huang C Z,Li M.Resonance Light Scattering Determination of Proteins with Fast Green FCF[J].Analytical Sciences.2002,18(2):177-181.
[34]冯宁川,何苏萍,张娟,刘建平.依来铬青R-蛋白质体系的共振光散射特征及微量蛋白质的光散射法测定[J].光谱学与光谱分析.2004,24(2):194-196.
[35]魏永巨,李克安,童沈阳.蛋白质-铬天青S体系的弹性光散射及其初步分析应用[J].化学学报.1998,56(3):290-297.
[36]李树伟,王照丽.第四届西南、中南地区分析化学学术交流会会议论文集[C].2002:1052107
[37]Hu X L,Feng F,Li Y F.Interaction of Pyrogallol Red with Prate ins and the Determination of Proteins by Resonance Light-scattering[J].J.Southwest China Normal University(Natural Science).1998,23:561-566.
[38]Ma C Q,Li K A,Tong S Y.Microdetermination of proteins by resonance light scattering spectroscopy with tetraiodophenol sulfonaphthalein[J].Fresenius J.Anal.Chem.1997,357:915-920.
[39]Ma C Q,Li K A,Tong S Y.Microdetermination of Proteins by Resonance Light Scattering Spectroscopy with Bromophenol Blue[J].Anal.Biochem.1996,239:86-91.
[40]Guo Z X,Shen H X.A highly sensitive assay for protein using resonance light-scattering technique with dibromohydroxyphenylfluorone-molybdenum(Ⅵ)complex[J].Spectrochimica Acta Part A:Molecular and Biomolecular Spectroscopy,1999,55(14):2919-2925.
[41]Liu S P,Yang R,Liu Q.Resonance Rayleigh Scattering Method for the determination of Proteins with Orange G[J].Analytical Science.2001,17:243-247.
[42]Ma C Q,Li K A,Tong S Y.Enhancement of Rayleigh Light Scattering of Acid Chrome Blue K by Proteins and Protein Assay by the Scattering Technique[J].Analyst.1997,122(4):361-364.
[43]王照丽,李树伟,谭舒敏,等.变色酸2R共振光散射光谱法测定蛋白质[J].四川师范大学学报,2002,25(2):186-188.
[44]Wang Y T,Zhao F L.A novel protein assay with an azo dye using rayleigh light scattering technique.Anal.Lett.2000,33(2):221-235.
[45]LI S W,LI N,ZHAO F L,LI K A.Study on Determination of Protein with Arsenazo I Using Resonance Light Scattering Technique[J].Spectroscopy and Spectral Analysis[J],2002,22(4): 619-622.
[46]Li Y,Dong L J,Wang W P,Hu Z D,Chen X G.Flow injection analysis-Rayleigh light scattering detection for online determination of protein in human serum sample[J].Analytical Biochemistry,2006,354:64-69.
[47]Jia R P,Dong L J,Li Q F,Chen X G,Hu Z D.Study of the interaction of protein and dibromomethyl-Arsenazo-Al(Ⅲ)by Rayleigh light-scattering technique[J].Anal.Chim.Acta.2001,442:249-256.
[48]Li Q F,Chen X G,Zhang H Y,et al.Microdetermination of Proteins Using m-carboxycholrophosphonazo as Detection Probe by Enhanced Resonance Light Scattering Spectroscopy[J].Fresenius Journal of Analytical Chemistry,2000,368(7):715-719.
[49]刘绍璞,范莉,龙秀芬,等.偶氮氯膦Ⅲ共振瑞利散射法测定蛋白质[J].西南师范大学学报,2001,26(3):293-296.
[50]Yang C X,Li Y F,Huang C Z.Determination of Proteins with Fast Red Vr by a Corrected Resonance Light-Scattering Technique[J].Analytical Sciences.2003,19(2):211-215.
[51]谭克俊,李原芳,黄承志.用比布列西猩红共振光散射技术测定蛋白质[J].西南师范大学学报:自然科学版,2003,28(5):715-720.
[52]苏小东,李树伟,王小红,等.铍试剂共振光散射光谱法测定蛋白质的研究[J].仪器仪表与分析监测,2003,3:35-36,46.
[53]冯宁川,龚国权,冯尚琴,等.苯甲天青—蛋白质体系的瑞利光散射特征及其分析应用[J].兰州大学学报,2002,38(1):132-134.
[54]Huang C Z,Li Y F,Mao J G,Tan D G.Determination of protein concentration by enhancement of the preresonance light-scattering of α,β,γ,δ-tetrakis(5-sulfothienyl)porphine[J].Analyst.1998,123:1401-1406.
[55]Chen X L,Li D H,Zhu Q Z,Yang H H,Zheng H,Wang Z H,Xu J G.Determination of proteins at nanogram levels by a resonance light-scattering technique with tetra-substituted sulphonated aluminum phthaloeyanine[J].Talanta.2001,53(6):1205-1210.
[56]龙秀芬,刘绍璞.磷锑钼蓝共振瑞利散射法测定蛋白质[J].西南师范大学学报.2000,25(2):155-159.
[57]Feng P,Hu X L,Huang C Z.Determination of proteins at nanogram levels with their enhancement effects of resonance light scattering on quercetin[J].Anal.Lett.1999,32:1323-1338.
[58]王林,王照丽,李树伟.简易荧光仪共振光散射光谱法测定蛋白质的研究[J].化学研究与应用,2001,13(5):591-593.
[59]陈红旗,马娟,刁雪莲.PbS-PAA复合纳米粒子共振光散射法测定蛋白质[J].分析测试学报,2005,24(6):56-58.
[60]张萍,卓淑娟,陈金龙.藉L-半胱氨酸包覆的ZnS纳米粒子的共振光散射定量分析蛋白质[J].分析试验室,2005,24(3):87-91.
[61]Liu R T,Yang J H,Sun C X,Wu X,Li L,Li Z M.Resonance light-scattering method for the determination of BSA and HSA with sodium dodecyl benzene sulfonate or sodium lauryl sulfate[J].Anal Bioanal Chem.2003,377:375-379.
[62]潘自红,陈丽华,郝成君.吡咯红Y-SDS-蛋白质体系的共振光散射光谱研究[J].化工时刊.2007,21(12):27-29.
[63]Huang C Z,Li K A,Tong S Y.Determination of Nanograms of Nucleic Acids by Their Enhancement Effect on the Resonance Light Scattering of the Cobalt(Ⅱ)/4-[(5-Chloro-2-pyridyl)azo]-1,3-diaminobenzene Complex Anal[J].Chem.1997,69(3):514-520.
[64]Huang C Z,Li Y F,Liu X D.Determination of Nucleic Acids at Nanogram Levels with Safranine T by a Resonance Light-Scattering Technique[J].Anal.Chem.Acta.1998,375(1—2):89-97.
[65]葛从辛,胡富陶,干宁.苯胺红T共振瑞利散射法测定生物样品中核酸[J].宁波大学学报(理工版).2006,19(3):18-22.
[66]Wang Y T.Anal.Chim.Acta.1999.396:75-81.
[67]黄新华,舒为群,李原芳,等.溴代十六烷基三甲基铵敏化亮绿一脱氧核糖核酸作用的共振光散射增强研究[J].分析化学.2001,29(3):271-275.
[68]向海艳,陈小明,李松青等.中性红共振光散射法测定脱氧核糖核酸[J].光谱学与光谱分析.2001,21(6):822-825.
[69]黄新华,黄承志,黄玉明.中性红用于痕量DNA测定[J]_西南师范大学学报,2000,25(3):273-276.
[70]Huang C Z,Li Y F,Deng S Y,et al.Assembly of methylene blue on nucleic acid template as studied by resonance light scattering technique and determination of nucleic acids of nanogram[J].Bull Chem.Soc.1999,72:1501-1508.
[71]向海艳,陈小明,李松青等.亚甲基蓝共振光谱散射法测定脱氧核糖核酸[J].分析化学,2000,28(11):1398-1400.
[72]李天剑,沈韩熙.乙基紫-脱氧核糖核酸共振发光体系的研究及其分析应用[J].高等学校化学学报.1998,19(10):1507-1511.
[73]刘绍璞,龙秀芬,胡小莉等.核酸-某些碱性三苯甲烷染料体系的RRS及其分析应用[J].西南师范大学学报.2001,26(2):164-167.
[74]刘晨,胡灏,陈小明.结晶紫共振光散射法测定脱氧核糖核酸[J]1分析试验室.2001,20(2):30-33.
[75]Liu Y,Ma C Q,Li K A et al.Anal.Biochem.1999,268:187.
[76]刘晨,陈小明,向海艳等.玫苯胺共振光散射法测定DNA[J].光谱学与光谱分析,2001,21(5):697-701.
[77]达毛拉·杰力里,黄承志.酚藏花红与DNA作用的共振光散射特征及微量DNA的光散射测定[J].分析化学.1999,27(10):1204.
[78]Huang C Z,Pu Q H,Lai L J,Li Y F.Interactions of nile blue sulphate with nucleic acids as studied byresonance light-scattering measurements and determination of nucleic acids at nanogram levels[J].Analytical Letters,1999,32(12):2395-2415.
[79]Huang C Z,Hu X L,Bin Li N,Li Y E Three-dimensional spectra of the long-range assembly of Nile Blue sulfate onthe molecular surface of DNA and determination of DNA by light-scattering[J].Analytica Chimica Acta,1999,395(1-2):187-197.
[80]黄承志,李原芳,李念兵等.耐尔蓝硫酸盐在核酸分子表面的长距组装及核酸的三波长共振光散射测定[J].分析化学,1999,27(11):1241-1244.
[81]刘晨,陈小明.灿烂甲酚蓝共振光谱散射法测定脱氧核糖核酸[J].分析化学,2001,29(6):685-687.
[82]向海艳,陈小明,周迪武.副品红共振光散射法测定脱氧核糖核酸[J].光谱学与光谱分析,2002,22(6):1051-1054.
[83]Liu Y,Ma C Q,Li K A et al.Simple and sensitive assay for nucleic acids by use of Rayleigh light scattering technique with rhodamine B[J].Anal.Chim.Acta.1999,379:39-44.
[84]俞英,黄发德.核酸与丁基罗丹明B体系的共振散射光谱[J].分析化学.2002,30(10):1234-1236.
[85]吴会灵,李文友,何锡文等.罗丹明6G与核酸作用的共振光散射光谱及其分析应用[J]. 分析科学学报.2002,18(2):94-97.
[86]陈小兰,李东辉,朱庆枝等.用四氨基铝酞菁共振光散射技术测定纳克级核酸[J].高等学校化学学报.2001,22(6):901-904.
[87]黄新华,舒为群,李原芳等.溴代十六烷基三甲基铵敏化亮绿脱氧核糖核酸作用的共振光散射增强研究[J].分析化学,2001,29(3):271-274.
[88]方光荣,李玲,刘立明等.DNA的亮绿共振光散射法测定[J].分析测试学报.2002,21(6):35-38.
[89]陈宇春,徐昆,李原芳等.阳离子表面活性剂存在下孔雀石绿与脱氧核糖核酸的作用及分析应用[J].西南师范大学学报.2002,27(4):617-620.
[90]李玲,宋功武,方光荣等.孔雀石绿在核酸表面分子的长距组装及其共振光散射法测定脱氧核糖核酸[J].湖北大学学报.2002,24(3):246-248.
[91]冯宁川,林枫,刘利军.次甲基绿-溴代十六烷基三甲基铵体系共振光散射法测定脱氧核糖核酸[J].中国卫生检验杂志.2005,15(2):172-173.
[92]高峰,章丽,李永新等.溴代十六烷基三甲基铵敏化吡罗红B-核酸作用的共振光散射增强法测定核酸[J].分析科学学报.2005.21(6):623-626.
[93]陈艳晶,杨景和,吴霞等.间苯二酚黄-CTAB-核酸共振光散射体系的研究及应用[J].光谱实验室.2002,19(3):299-302.
[94]王粤博,吴霞,杨景和等.间甲酚紫-DNA体系共振光散射法测定DNA[J].Chemic Journal on Internet.2003,5(1):10.
[95]苏界殊,陈小明,罗和安.三甲基品红与脱氧核糖核酸作用的共振光散射光谱的研[J].分析测试学报.2005,24(1):60-63.
[96]万新军,刘金水,王伦.吖啶橙共振光散射法测定脱氧核糖核酸[J].光谱学与光谱分.2005,25(5):754-756.
[97]王永生,肖锡林,李贵荣等.吖啶橙共振光散射法测定痕量脱氧核糖核酸[J].分析试学报.2004,23(6):29-31.
[98]王峰,杨景和,吴霞等.灵敏的共振光散射测定核酸的新方法.山东大学学报:理学.2004,39(6):96-100.
[99]蔡朝霞,宋功武,李玲等.荧光素共振光散射法测定脱氧核糖核酸[J].分析化学.2004,32(5):647-650.
[100]肖锡林,王永生,李贵荣等.甲苯胺蓝共振光散射法测定纳克级脱氧核糖核酸[J].光学 与光谱分析.2004,24(2):190-193.
[101]龙云飞,陈小明,张馨等.吖啶黄共振光散射法检测脱氧核糖核酸[J].分析化学.2003,1(11):1404-1404.
[102]李永新,赵丹华,朱昌青等.溴化十六烷基三甲基铵敏化四磺基锰酞菁-脱氧核糖核作用的共振光散射增强研究[J].分析化学.2003,31(6):694-697.
[103]向海艳,陈小明.副品红共振光散射法测定脱氧核糖核酸[J].光谱学与光谱分析,2002,22(6):1051-1053.
[104]刘绍璞,胡小莉,罗红群等.阳离子表面活性剂与核酸反应的共振Rayleigh散射特征及其分析应用[J].中国科学(B辑).2002,32(1):18-26.
[105]冯索玲,刘雪平,樊静.十六烷基溴化吡啶与脱氧核糖核酸的共振光散射光谱及其分析应用[J].分析化学.2005,33(3):377-380.
[106]汪澜,何瑜,宋功武.聚甲基丙烯酰氧乙基溴化铵共振光散射法测定核酸[J].胶体与聚合物.2005,23(3):43-45.
[107]陈展光,丁卫锋,韩雅莉.两性离子表面活性剂作为共振光散射探针测定脱氧核糖核酸[J].分析化学.2005,33(4):519-522.
[108]饶震红,熊艳梅,任丽萍等.十二烷基硫酸钠敏化联苯胺共振光散射技术测定脱氧核糖核酸[J].光谱学与光谱分析.2004,24(9):1035-1038.
[109]周颖琳,常文保,李元宗.聚二烯丙基二甲基氯化铵与核酸相互作用的共振光散射光谱及其分析应用[J].分析化学.2004,32(2):169-173.
[110]Li Z P,Li K A,Tong S Y.Determination of nucleic acids in acidic medium by enhanced light scattering of large particles[J].Talanta.2000,51(1):63-70.
[111]Huang C Z,Li K A,Tong S Y.Determination of Nanograms of Nucleic Acids by Their Enhancement Effect on the Resonance Light Scattering of the Cobalt(Ⅱ)/4-[(5-Chloro-2-pyridyl)azo]-1,3-diaminobenzene Complex[J].Anal.Chem.1997,69(3):514-520.
[112]杨传孝,李原芳,奉萍,黄承志.铝离子与脱氧核糖核酸作用的共振光散射研究[J].分析化学.2002,30(4):473-477.
[113]朱昌青,李东辉,郑洪,朱庆枝,许金钩.核酸对氯化银胶体溶液共振光散射的猝灭作用及其应用[J].分析化学.2000,28(12):1485-1488.
[114]齐树民编.药理学进展.北京:人民卫生出版社,1985.319.
[115]刘晨,陈献桃,李松青等.小檗碱共振光散射法测定脱氧核糖核酸[J].分析化学.2002,30(10):1218-1222.
[116]刘绍璞,胡小莉,范莉等.用新洁尔灭测定核酸的共振瑞利散射方法研究[J].西南师范大学学报.2002,27(2):188-193.
[117]吕文娟,陈兴国,胡之德.大黄酸与核酸作用的共振光散射特征及机理研究.兰州大学学报(自然科学版).2006,42(4):61-65.
[118]Liu S P,Luo H Q,Luo H Q.Resonance Rayleigh scattering method for the determination of vitamin B_1 with methyl orange[J].Anal Sci.2002,18(09):971-978.
[119]胡小莉.西南师范大学硕士学位论文,2001.
[120]张立萍.共振瑞利散射在分析化学中的应用[J].华北煤炭医学院学报.2005,7(5):590-591.
[121]Liu S P,Liu Q,Liu Z F,et al.Resonance Rayleigh scattering of chromium(Ⅵ)—iodide basic triphenylmethanedye systemsand their analytical application[J].Anal.Chem.Acta.1999,379:53-61.
[122]刘绍璞,杨睿,刘忠芳等.铬(Ⅵ)-碘化钾-维多利亚蓝4R体系的共振瑞利散射和二级散射及其分析应用[J].分析化学,1998,26(12):1432-1426.
[123]王照丽,张新申,罗娅君等.铬Ⅵ-碘化物-罗丹明6G体系共振光散射光谱法测定铬Ⅵ[J].冶金分析,2003,23(4):4-5.
[124]方骏,金雅殡,夏小庆等.痕量Cr(Ⅲ)的共振光散射法测定[J].安全与环境学报,2003,3(6):9-10.
[125]衷明华.共振光散射光谱法测定电镀废水中铬(Ⅵ)[J].Electroplating& Pollution Control.2006,36(26):36-37.
[126]陈兰化,刘发光.共振光散射光谱法测定水中铬(Ⅵ)[J].中国卫生检验杂志.2006,16(2):205-206
[127]Liu S P,Liu Z F,Luo H Q.Resonance Rayleigh Scattering method for the determination of trace amounts of cadmium with iodier hodamine dye systems[J].Anal.Chem.Acta.2000,407:255.
[128]Liu S P,Liu Z F,Luo H Q et al.Resonance Rayleigh scattering method for the determination of trace amounts of Cadium with Iodide Basic Triphenylmethane dye systems[J].Fresenius J.Anal.Chem.2000,368:848-852.
[129]曾铭,李树伟,王小红等.共振光散射光谱法测定镉的研究及应用[J].四川师范大学学 报(自然科学版),2005,28(2):218-221.
[130]韩志辉,吕昌银,杨胜圆.Cd~(2+)-PAN-聚乙烯醇共振瑞利散射法测定水中痕量镉[J].分析科学学报.2006,22(1):77-79.
[131]韩志辉,吕昌银,傅仕福等.共振散射法测定环境水样中的痕量镉[J].中国卫生检验杂志.2005,15(1):20-22.
[132]王小红,李树伟,张万诚等.铅—BSA-刚果红体系共振散射光谱法测定铅的含量的研究[J].四川师范大学学报(自然科学版),2004,27(2):198-201.
[133]王丹,罗红群,李念兵等.碘化物-甲基紫体系共振瑞利散射法测定痕量铅[J].西南师范大学学报(自然科学版),2004,29(6):1005-1008.
[134]李小燕,李树伟,王小红等.共振光散射比浊法测定环境水样中Pb(Ⅱ)[J].西南民族大学学报(自然科学版),2005,3l(2):192-194.
[135]王丹,罗红群,李念兵.碘化物-罗丹明6G体系共振瑞利散射法测定痕量铅[J].环境化学,2005,24(1):97-100.
[136]Liu S P,Liu Z F,Li M.Resonance luminescence spectra of selenium(Ⅳ)iodide-rhodamieB system and its analytical application[J].Southwest China Normal University(Natural Science),1996,21(5):20-22.
[137]Liu S P,Liu Z F,Luo H Q.Resonance Rayleigh scattering for an indirect determination of trace amounts of selenium(Ⅳ)with iodide-basic triphenylmethane dye systems[J].Anal.Sci.1998,14(4):799-802.
[138]贺冬秀,李贵荣,吕昌银.共振光散射法测定环境水样中痕量亚硝酸根[J].南华大学学报(理工版).2003,17(4):42-44.
[139]龙云飞,陈小明,杨伟军等.吖啶黄共振光散射法测定亚硝酸根[J].分析化学.2004,32(1):127-130.
[140]贺冬秀,李贵荣,杨慧仙等.罗丹明B共振光散射法测定水中痕量亚硝酸根[J].中国卫生检验杂志.2004,14(6):689-690.
[141]蒋治良,李芳,梁宏.磷钼杂多酸—罗丹明S体系的共振散射光谱研究[J].化学学报.2000,58:1059.
[142]刘绍璞,周光明,刘忠芳等.共振瑞利散射法测定硫氰酸盐-碱性三苯甲烷染料体系中的痕量铝[J].高等学校化学学报.1998,19(7):1040.
[143]韩志辉,吕昌银,杨胜圆.硫化银体系共振散射光谱研究及分析应用[J].光谱实验室, 2005,22(2):242-246.
[144]韩志辉,吕昌银,杨胜圆.银-邻菲罗啉·酸性三苯甲烷染料体系共振瑞利散射法测定痕量银[J].分析测试学报.2006,25(1):79-62.
[145]蒋治良,潘宏程,袁伟恩.铬天青S-铝(Ⅲ)-聚乙二醇4000体系的共振散射光谱及其应用[J].环境化学.2004,23(5):573-577.
[146]王小红,李树伟,苏小东等.共振光散射比浊发测定钾[J].化学研究与应用.2004,16(16):837-838.
[147]李树伟,苏小东,王小红等.共振光散射光谱法测定痕量氯离子[J].化学研究与应用.2004,16(14):535-536.
[148]张涛,陈丹丹,任丽萍等.共振光散射法测定甲哌翁水剂中的氯含量[J].农药.2006,45(2):111-113.
[149]衷明华.碘化物-十六烷基三甲基溴化铵体系共振光散射法测定铜[J].分析仪器.2006,1:24-27.
[150]曾晓燕,黄婉莹,吴雪群等.散射光谱法测定微量铜的研究[J].江西化工,2005,4:117-120.
[151]衷明华.碘化物-CTMAB体系共振光散射法测定电镀废水中的钯[J].化学分析计量,2006,15(1):18-20.
[152]许发功,陈红旗,王家亮,刘宇杰,汪乐余,王伦.CuS/Cu~(~(2+))和ZnS/Zn~(~(2+))纳米溶胶的合成与光学性质的研究[J].安徽师范大学学报(自然科学版).2004,27(2):166-168.
[153]张红梅,杜晓燕,李伟伟.共振光散射技术测定水中十二烷基硫酸钠[J].中国卫生检验杂志.2007,17(1):79-81.
[154]达毛拉·杰力里,黄承志.酚藏花红与DNA作用的共振光散射特征及微量DNA的光散射测定[J].分析化学.27(10):1204-1207.
[155]Huang C Z,Li Y F,Hu XL,at el.Three-dimensional spectra of the long-range assembly of nile blue sulfate on the molecular surface of DNA and determination of DNA by light-scattering[J].Anal Chem Acta,1999,395:187-197.
[156]Tan K J,Li Y F,Huang C Z.Flow-injection resonance light scattering detection of proteins at the nanogram level[J].Luminescence.2005,20:176-180.
[157]Huang C Z,Pang X B,Li Y F.Determination of heparin using Azure B by flow injection analysis-resonance light scattering coupled technique[J].Anal.lett.2005,38,317-330.
[158]Vidal E,Palomeque M E,Lista A G,Band,B E Flow injection analysis:Rayleigh light scattering technique for total protein determination[J].Anal.Bioanal.chem.2003,376:38-41.
[159]代小霞,李原芳,黄承志.流动注射-共振光散射联用技术测定注射液中肝素的含量[J].分析化学.2005,33:1535-1538.
[160]Li Y,Dong L J,Zhang Y H,Hu Z D,Chen X G.Determination of proteins by flow injection analysis coupled with the Rayleigh light scattering technique[J].Talanta,2007,71(1):109-114.
[161]Pasternack R F,Bustamante C,Collings P J,Giannetteo A,GibbsE J.Porphyrin assemblies on DNA as studied by a resonance light-scattering technique[J].J.Am.Chem.Soc.115(1993):5393-5399.
[162]Pastemack R F,Collings P J.Resonance light scattering:a new technique for studying chromophore aggregation[J].Science.1995,269:935-939.
[163]Feng P,Shu W Q,Huang C Z,Li Y F.Total internal reflected resonance light scattering determination of chlortetracycline in body fluid with the complex cation of chlortetracycline-europium-trioctyl phosphine oxide at the water/tetrachloromethane interface[J].Anal.Chem.2001,73:4307-4312.
[164]Feng P,Huang C Z,Li Y F.Direct quantification of human serum albumin in human blood serum without separation of gamma-globulin by the total internal reflected resonance light scattering of thorium-sodium dodecylbenzene sulfonate at water/tetrachloromethane interface[J].Anal.Biochem.2002,308:83-89.
[165]Lu W,Huang C Z,Li Y F.A sensitive and selective assay of nucleic acids by measuring enhanced total internal reflected resonance light scattering signals deriving from the evanescent field at the water/tetrachloromethane interface[J].Analyst.2002,127:1392-1396.
[166]Huang C Z,Lu W,Li Y F.Total internal reflected.resonance light scattering detection of DNA at water/tetrachloromethane interface with acrindine orange and cetyltrimethylammonium bromide[J].Analytica Chimica Acta.2003,494:11-19.
[167]Lu W,Huang C Z,Li Y F.Novel assay of thiamine based on its enhancement of total intemal reflected resonance light scattering signals of sodium dodecylbenzene sulfonate at the water/tetrachloromethane interface[J].Analytica Chimica Acta.2003,475:151-161.
[168]Huang C Z,Liu Y,Wang Y H,Guo H P.Resonance light scattering imaging detection of proteins with α,β,γ,δ-tetrakis(p-sulfophenyl)porphyrin[J].Analytical Biochemistry.2003,321(2): 236-243.
[169]Wang Y H,Guo H P,Tan K J,Huang C Z.Backscattering light detection of nucleic acids with tetraphenylporphyrin-Al(Ⅲ)-nucleic acids at liquid/liquid interface[J].Analytica Chimica Acta.2004,521(1):109-115.
[170]Roll D,Malicka J,Gryczynski I,Gryczynski Z,Lakowicz J R.Metallic Colloid Wavelength-Ratiometric Scattering Sensors[J],Anal.Chem.2003,75(14):3440-3445.
[171]Asian K,Lakowicz J R,Geddes C D.Nanogold Plasmon Resonance-Based Glucose Sensing Wavelength-Ratiometric Resonance Light Scattering[J].Anal.Chem.2005,77(7),2007-2014.
[172]苏小东.共振光散射比浊法在环境分析中的研究及应用.四川师范大学硕士毕业论文.2001.
[173]刘程,张万福,陈长明.表面活性剂应用手册[M].化学工业出版社.1995,1-2.
[174]刘绍璞,胡小莉,罗红群等.阳离子表面活性剂与核酸反应的共振Rayleigh散射特征及其分析应用[J].中国科学(B辑).2002,32(1):18-26.
[175]衷明华,温红丽.碘化物-CTMAB体系共振光散射法测定铋[J].理化检验-化学分册.2008,44:50-52.
[176]李韧韬,苏界殊,龙云飞.固黄O-CTMAB-DNA三元体系的共振光散射光谱的研究及应用[J].湖南科技大学学报(自然科学版).2007,22(3):109-112.
[1]Fujita Y,Mori I,Ikuta K,Nakahashi Y,Kato K,Nakanishi T.Highly sensitive spectrophotometric determination of human serum albumin with 3′,4′,5′,6′-tetrachlorogallein-molybdenum(Ⅵ)complex[J].Chem.Pharm.Bull.1989,37:2452-2455.
[2]Li N,Li K A,Tong S Y.A novel protein assay method using tetraphenylporphin tetrasulfonate (TPPS4)[J].Anal.Lett.1995,28:1763-1774.
[3]Li Z P,Li K A,Tong S Y.Microdetermination of Proteins with the 1,10- Phenan throline--H2O2-Cetyltrimethylammonium Bromide-Cu(Ⅱ)Chemiluminescence System[J].Mierochem.J.1998,60:217-223.
[4]Matthew F,Smiechowski V F,Lvovieh S R,et al.Electrochemical detection and characterization of proteins[J].Biosensors and Bioelectronics,2006,22:670-677.
[5]Rousseau,D.L.Optical Techniques in Biological Research.Academic Press,Inc.,1984;4 pp.
[6]Huang C Z,Li K A,Tong S Y.Determination of Nanograms of Nucleic Acids by Their Enhancement Effect on the Resonance Light Scattering of the Cobalt(Ⅱ)/4-[(5-Chloro -2-pyridyl)azo]-1,3-diaminobenzene Complex[J].Anal.Chem.1997,69:514-520.
[7]Huang C Z,Li Y F,Liu X D.Determination of Nucleic Acids at Nanogram Levels with Safranine T by a Resonance Light-Scattering Technique[J].Anal.Chem.Acta,1998,375(1-2):89-97
[8]葛从辛,胡富陶,干宁.苯胺红T共振瑞利散射法测定生物样品中核酸[J].宁波大学学报(理工版).2006,19(3):18-22.
[9]Li Z P,Li K A,Tong S Y.Determination of nucleic acids in acidic.medium by enhanced light scattering of large particles[J].Talanta.2000,51(1):63-70.
[10]Liu Y,Ma C Q,Li K A,Xie F C,Tong S Y.Rayleigh Light Scattering Study on the Reaction of Nucleic Acids and Methyl Violet[J].Anal.Biochem.1999,268:187-192.
[11]杨睿,刘绍璞.某些分子光谱分析法测定蛋白质的进展[J].分析化学.2001,29(2):232-234.
[12]Huang C Z,Li Y F,Mao J G,Tan D G.Determination of protein concentration by enhancement of the preresonance light-scattering of a,α,β,γ,δ-tetrakis(5-suifothienyl)porphine[J].Analyst. 1998.123:1401-1406.
[13]龙秀芬,刘绍璞.磷锑钼蓝共振瑞利散射法测定蛋白质[J].西南师范大学学报.2000,25(2):155-159.
[14]Feng P,Hu X L,Huang C Z.Determination of proteins at nanogram levels with their enhancement effects of resonance light scattering on quercetin[J].Anal.Lett.1999 32:1323-1338.
[15]Jia R P,Dong L J,Li Q F,Chen X G,Hu Z D.Study of the interaction of protein and dibromomethyl-Arsenazo-Al(Ⅲ)by Rayleigh light-scattering technique[J].Anal.Chim.Acta.2001,442:249-256.
[16]Li Q F,Chen X G,Zhang H Y,et al.Microdetermination of Proteins Using mcarboxycholrophosphonazo as Detection Probe by Enhanced Resonance Light Scattering Spectroscopy[J].Fresenius Journal of Analytical Chemistry.2000,368(7):715-719.
[17]Yao G,Li K A,Tong S Y.Determination of protein by its enhancement effect on the Rayleigh light scattering ofearboxyarsenazo[J].Talanta.1999,50:585-594.
[18]Zhong H,Wang K,Chen H Y.Protein analysis with tetra-substituted sulfonated cobalt phthalocyanine by the technique of Rayleigh light scattering[J].Anal.Biochem.2004,330:37-42.
[19]Dong L J,Jia R P,Li Q F,Chen X G,Hu Z D.Quantitative determination of proteins by the Rayleigh light-scattering technique after optimization of the derivation reaction with Arsenazo-DBS[J].Anal.Chim.Acta.2002,459:313-322.
[20]Tan K J,Li Y F,Huang C Z.Flow-injection resonance light scattering detection of proteins at the nanogram level[J].Luminescence.2005,20:176-180.
[21]Huang C Z,Pang X B,Li Y F.Determination of heparin using Azure B by flow injection analysis-resonance light scattering coupled technique[J].Anal.lett.2005,38:317-330.
[22]Vidal E,Palomeque M E,Lista A G,Band B S F.Flow injection analysis:Rayleigh light scattering technique for total protein determination[J].Anal.Bioanal.chem.2003,376:38-41.
[23]代小霞,李原芳,黄承志.流动注射—共振光散射联用技术测定注射液中肝素的含量[J].分析化学.2005,33:1535-1538.
[24]Jiang B,Hu Q H.Study on resonance rayleigh scattering of serum proteins with sodium dodecyl sulfonate and it's analytical application[J].Journal of Guangxi normal university.2002,20:60-64.
[25]Carter D C,Ho J X.Structure of serum albumin[J].Adv.Protein Chem.1994,45:152-203.
[26]He J X,Carter D C.Atomic structure and chemistry of human serum albumin[J].Nature.1992,358:209-215.
[27]Curry S,Brick P,Franks N P.Fatty acid binding to human serum albumin:new insights from crystallographic studies[J].Biochim Bioph.Acta.1999,1441:131-140.
[28]Sudlow G,Birkett D J,Wade D N.The characterization of two specific drug binding sites on human serum albumin[J].Mol.Pharmacol.1975,11:824-832.
[29]Sudlow G,Birkett D J,Wade D N.Further characterization of specific drug binding sites on human serum albumin[J].Mol.Pharmacol.1976,12:1052-1061.
[30]Zor T,Selinger Z.Linearization of the Bradford Protein Assay Increases Its Sensitivity:Theoretical and Experimental Studies[J].Anal.Biochem.1996,236:302-308.
[31]Kessler M A,Meintizer A,Wolfbeis O S.Albumin Blue 580 Fluorescence Assay for Albumin[J].Anal.Biochem.1997,248:180-182.
[32]Sun W,Jiao K,Wang X L,Lu L D.Electrochemical studies of the reaction between albumin and amaranth and its analytical application[J].Journal of Electroanalytical Chemistry 2005,578:37-43.
[33]Guo Z X,Shen H X.A highly sensitive assay for protein using resonance light-scattering technique with dibromohydroxyphenylfluorone-molybdenum(Ⅵ)complex[J].Spectrochimica Acta Part A:Molecular and Biomolecular Spectroscopy.1999,55(14):2919-2925.
[34]Li Y,Dong L J,Wang W P,Hu Z D,Chen X G.Flow injection analysis-Rayleigh light scattering detection for online determination of protein in human serum sample[J].Analytical Biochem.2006,354(1):64-69.
[1]Lowry O H,Rosebrough N J,Farr A L,Randall R J.Protein measurement with the folin phenol reagent[J].J.Biol.Chem.1951,193:265-275.
[2]Bradford M M.A rapid and sensitive method for quantitation of microgram quantities of protein utilizing the principle of protein-dye-binding[J].Anal Biochem.1976,72:248-54.
[3]Zor T,Selinger Z.Linearization of the Bradford protein assay increases its sensitivity:theoretical and experimental studies[J].Anal Biochem.1996,236:302-308.
[4]Flores R A.rapid and reproducible assay for quantitative eatimation of proteins using bromophenol blue[J].Anal Biochem.1978,88:605-611.
[5]Rodkly R L.Binding of bromocresol green by human serum albumin[J].Arch.Biochem.Biophys.1964,108:510-513.
[6]Pasternack R F,Bustamante C,Collings P J,et al.Porphyrin Assemblies on DNA as Studied by a Resonance Light-Scattering Technique[J].J Am Chem Soc,1993,115:5393-5399
[7]杨睿,刘绍璞.某些分子光谱分析法测定蛋白质的进展[J].分析化学.2001,29(2):232-234.
[8]Huang C Z,Li Y F,Mao J G,Tan D G.Determination of protein concentration by enhancement of the preresonance light-scattering of α,β,γ,δ-tetrakis(5-sulfothienyl)porphine[J].Analyst.1998,123:1401-1406.
[9]龙秀芬,刘绍璞.磷锑钼蓝共振瑞利散射法测定蛋白质[J].西南师范大学学报.2000,25(2):155-159.
[10]Feng P,Hu X L,Huang C Z.Determination of proteins at nanogram levels with their enhancement effects of resonance light scattering on quercetin[J].Anal.Lea.1999 32:1323-1338.
[11]LI Y F,HUANG C Z,LI M.Resonance Light Scattering Determination of Proteins with Fast Green FCF.Analytical Sciences[J],2002,18(2):177-181.
[12]冯宁川,何苏萍,张娟,刘建平.依来铬青R-蛋白质体系的共振光散射特征及微量蛋白质的光散射法测定.光谱学与光谱分析[J],2004,24(2):194-196.
[13]Yao G,Li K A,Tong S Y.Determination of protein by its enhancement effect on the Rayleigh light scattering of carboxyarsenazo[J].Talanta.1999,50:585-594.
[14]Zhong H,Wang K,Chen H Y.Protein analysis with tetra-substituted sulfonated cobalt phthalocyanine by the technique of Rayleigh light scattering[J].Anal.Biochem.2004,330:37-42.
[15]Dong L J,Jia R P,Li Q F,Chen X G,Hu Z D.Quantitative determination of proteins by the Rayleigh light-scattering technique after optimization of the derivation reaction with Arsenazo-DBS[J].Anal.Chim.Acta.2002,459:313-322.
[16]Huang C Z,Li K A,Tong S Y.Determination of Nanograms of Nucleic Acids by Their Enhancement Effect on the Resonance Light Scattering of the Cobalt(Ⅱ)/4-[(5-Chloro -2-pyridyl)azo]- 1,3-diaminobenzene Complex[J].Anal.Chem.1997,69:514-520.
[17]Huang C Z,Li Y F,Liu X D.Determination of Nucleic Acids at Nanogram Levels with Safranine T by a Resonance Light-Scattering Technique[J].Anal.Chem.Acta,1998,375(1-2):89-97
[18]葛从辛,胡富陶,干宁.苯胺红T共振瑞利散射法测定生物样品中核酸[J].宁波大学学报(理工版).2006,19(3):18-22.
[19]Li Z P,Li K A,Tong S Y.Determination of nucleic acids in acidic medium by enhanced light scattering of large particles[J].Talanta.2000,51(1):63-70.
[20]Liu Y,Ma C Q,Li K A,Xie F C,Tong S Y.Rayleigh Light Scattering Study on the Reaction of Nucleic Acids and Methyl Violet[J].Anal.Biochem.1999,268:187-192.
[21]Liu S P,Luo H Q,Luo H Q.Resonance Rayleigh scattering method for the determination of vitamin B1 with methyl orange[J].Anal Sci.2002,18(09):971-978.
[22]胡小莉.西南师范大学硕士学位论文.2001.
[23]张立萍.共振瑞利散射在分析化学中的应用[J].华北煤炭医学院学报.2005,7(5):590-591.
[24]Liu S P,Liu Q,Liu Z F,et al.Resonance Rayleigh scattering of chromium(Ⅵ)—iodide basic triphenylmethanedye systemsand their analytical application[J].Anal.Chem.Acta.1999,379:53-61.
[25]王照丽,张新申,罗娅君等.铬Ⅵ-碘化物-罗丹明6G体系共振光散射光谱法测定铬Ⅵ[J].冶金分析,2003,23(4):4-5.
[26]衷明华.共振光散射光谱法测定电镀废水中铬(Ⅵ)[J].Electroplating& Pollution Contrlo.2006,36(26):36-37.
[27]许发功,陈红旗,王家亮,刘宇杰,汪乐余.CuS/Cu~(~(2+))和ZnS/Zn~(~(2+))纳米溶胶的合成与光学性质的研究[J].安徽师范大学学报(自然科学版).2004,27(2):166-168.
[28]张红梅,杜晓燕,李伟伟.共振光散射技术测定水中十二烷基硫酸钠[J].中国卫生检验杂志.2007,17(1):79-81.
[29]张爱梅,臧运波.达旦黄-OP体系共振瑞利散射法测定蛋白质[J].聊城大学学报(自然科学版).2004,17(4):38-40.
[30]潘自红,陈丽华,郝成君.吡咯红Y-SDS-蛋白质体系的共振光散射光谱研究[J].化工时刊.2007,21(12):27-29.
[31]Zhong H,Xu J J,Chen H Y.A rapid and sensitive method for the determination of trace proteins based on the interaction between proteins and Ponceau 4R[J].Talanta.2005,67:749-754.
[32]Jia R P,Dong L J,Li Q F,Chen X G,Hu Z D.Study of the interaction of protein and dibromomethyl-Arsenazo-Al(Ⅲ)by Rayleigh light-scattering techniqu e[J].Anal.Chim.Aeta.2001,442:249-256.
[33]Li Q F,Chen X G,Zhang H Y,et al.Microdetermination of Proteins Using mcarboxycholrophosphonazo as Detection Probe by Enhanced Resonance Light Scattering Spectroscopy[J].Fresenius Journal of Analytical Chemistry.2000,368(7):715-719.
[34]Carter D C,Ho J X,Structure of serum albumin[J].Adv.Protein Chem.1994,45:152-203.
[35]He J X,Carter D C.Atomic structure and chemistry of human serum albumin[J].Nature.1992,358:209-215.
[36]Curry S,Brick P,Franks N P.Fatty acid binding to human serum albumin:new insights from crystallographic studies[J].Biochim Bioph.Acta.1999,1441:131-140.
[37]Sudlow G,Birkett D J,Wade D N.The characterization of two specific drug binding sites on human serum albumin[J].Mol.Pharmacol.1975,11:824-832.
[38]Sudlow G,Birkett D J,Wade D N.Further characterization of specific drug binding sites on human serum albumin[J].Mol.Pharmacol.1976,12:1052-1061.
[2]赵凯华,钟锡华.光学,下册[M].北京大学出版社.1982:249-252.
[3]李原芳,黄承志,胡小莉.共振光散射技术的原理及其在生化研究和分析中的应用[J].分析化学.1998,26(12):1508-1515.
[4]Rmana C V,Krishnan K S.A New Type of Secondary Radiation Nature[J].1928,121:501-502.
[5]叶勇,胡继明,曾云鹦.大学化学.1998,13:6.
[6]李帮军.对样品实验比较测试与拉曼光谱分析[J].物理与工程.2005,15(6):41-44.
[7]Eckhardt G,Wagner W G.On the Calculation of Absolute Ramam Scattering Cross Section from Ramam Scattering Coefficients[J].J.Molec.Spect.1966,19(4):409-411.
[8]Lempert W,Wang C H,Studies of shear waves and translation-rotation coupling of liquid nitrobenzene in neat liquid and in carbon tetrachloride solution by depolarized Rayleigh scattering[J].J.Chem.Phys.1980,72:3490-3495.
[9]Kuiper G P.The Atmospheres of the Earth and Planets,2nd ed.,Chap.12,Univ.of Chicago Press,Chicago,1952.
[10]Debye P.Light Scattering in Solutions[J].J.Appl.Phys.1994,15:338-342.
[11]Magdalena M,Marek K,Zdzislaw B,Iwona I K.Rayleigh scattering study of selected polymers[J].Proceedings of SPIE-The International Society for Optical Engineering.2003.pp5229.
[12]Dollinger G,Cunieo B,Kunitani M,Johnson D,Jones R.Practical online determination of biopolymer molecular weights by high-performance liquid chromatography with classical light-scattering detection[J].Journal of Chromatography.1992,592(1-2):215-228.
[13]Toporowski P M,Roovers J.The Intramolecular Scattering Function of Model Branched Polymers[J].Macromolecules.1978,11:365-368.
[14]Sun Z,Tomlin C D,Sevick-Muraca E M.Approach for Particle Sizing in Dense Polydisperse Colloidal Suspension Using Multiple Scattered Light[J].Langmuir.2001,17(20):6142-6147.
[15]Kratochivil P.Advances in classical light scattering from polymer solutions[J].Pure and Appl.Chem.1982,54(2):379-394.
[16]Tupitsyn V P,Kashcheev I N.Rayleigh light scattering in the carbon tetrachloride-1,4-dioxane system[J].Zhurnal Fizicheskoi Khimii.1988.62(9):2496-2498.
[17]Blaszczak Z.The influence of molecular interactions on optical orientation of pyridine methyl derivatives.2.Optical birefringence and light scattering studies[J].Acta Physica Polonica A.1985,A68(4):629-636.
[18]Huglin M B.Light Scattering from Polymer Solution[J].Academic Press,London and New York,1972.
[19]Anglister J,Steinberg I Z.Resonance Rayleigh scattering of cyanine dyes in solution[J].J.Chem.Phys.1983,78:5358-5368.
[20]Placzek G.Akademisehe Verlagsgesellsehaft Leipzig,1934,part 2,pp.205.
[21]Bauer D R.Hudson B,Pecora R.Resonance enhance depolarized rayleigh scattering from diphenylpolyenes[J].J.Chem,Phys.1975,63:588-589.
[22]Miller G A.Fluctuation theory of the resonance enhancement of Rayleigh scattering in absorbing media[J].J.Phys.Chem.1978,82:616-618.
[23]Stanton S G,Recora R,Hudson B S.Resonance enhanced dynamic Rayleigh scattering[J].J.Chem.Phys.1981,75:5615-5626.
[24]Anglister J,Steinberg I Z.Depolarized Rayleigh light scattering in absorption bands measured in lycopene solution[J].Chem.Phys.Lett.1979,65:50-54.
[25]Anglister J,Steinberg I Z.Measurement of the depolarization ratio of Rayleigh scattering at absorption bands[J].J.Chem.Phys.1981.74:786-791.
[26]张爱梅,李林尉,臧运波.考马斯亮蓝-SLS体系共振瑞利散射法测定蛋白质[J].分析科学学报.2006.22(1):80-83.
[27]魏永巨.北京大学博士论文.1997.
[28]李原芳,黄承志,胡小莉.共振光散射技术的原理及其在生化研究和分析中的应用[J].分析化学.1998,26(12):1508-1515.
[29]Pasternaek R F,Bustamante C,Collings P J,et al.Porphyrin Assemblies on DNA as Studied by a Resonance Light-Scattering Technique[J],J Am Chem Soc,1993,115:5393-5399
[30]Pasternack R F,Schaefer K S,Hambright P.Resonance light-scattening studies of porphyrin diacid aggregate[J].Inorg.Chem.1994,33:2062-2065.
[31]Pasternack R F,Collings P J.Resonance light scattering:a new technique for studying chromophore aggregation[J].Science.1995,269:935-939.
[32]刘保生,张红医,张红蕾,赵勇.氯酚红-蛋白体系的共振光散射法定量测定蛋白质[J].光 谱学与光谱分析.2003,23(2):229-231.
[33]Li Y F,Huang C Z,Li M.Resonance Light Scattering Determination of Proteins with Fast Green FCF[J].Analytical Sciences.2002,18(2):177-181.
[34]冯宁川,何苏萍,张娟,刘建平.依来铬青R-蛋白质体系的共振光散射特征及微量蛋白质的光散射法测定[J].光谱学与光谱分析.2004,24(2):194-196.
[35]魏永巨,李克安,童沈阳.蛋白质-铬天青S体系的弹性光散射及其初步分析应用[J].化学学报.1998,56(3):290-297.
[36]李树伟,王照丽.第四届西南、中南地区分析化学学术交流会会议论文集[C].2002:1052107
[37]Hu X L,Feng F,Li Y F.Interaction of Pyrogallol Red with Prate ins and the Determination of Proteins by Resonance Light-scattering[J].J.Southwest China Normal University(Natural Science).1998,23:561-566.
[38]Ma C Q,Li K A,Tong S Y.Microdetermination of proteins by resonance light scattering spectroscopy with tetraiodophenol sulfonaphthalein[J].Fresenius J.Anal.Chem.1997,357:915-920.
[39]Ma C Q,Li K A,Tong S Y.Microdetermination of Proteins by Resonance Light Scattering Spectroscopy with Bromophenol Blue[J].Anal.Biochem.1996,239:86-91.
[40]Guo Z X,Shen H X.A highly sensitive assay for protein using resonance light-scattering technique with dibromohydroxyphenylfluorone-molybdenum(Ⅵ)complex[J].Spectrochimica Acta Part A:Molecular and Biomolecular Spectroscopy,1999,55(14):2919-2925.
[41]Liu S P,Yang R,Liu Q.Resonance Rayleigh Scattering Method for the determination of Proteins with Orange G[J].Analytical Science.2001,17:243-247.
[42]Ma C Q,Li K A,Tong S Y.Enhancement of Rayleigh Light Scattering of Acid Chrome Blue K by Proteins and Protein Assay by the Scattering Technique[J].Analyst.1997,122(4):361-364.
[43]王照丽,李树伟,谭舒敏,等.变色酸2R共振光散射光谱法测定蛋白质[J].四川师范大学学报,2002,25(2):186-188.
[44]Wang Y T,Zhao F L.A novel protein assay with an azo dye using rayleigh light scattering technique.Anal.Lett.2000,33(2):221-235.
[45]LI S W,LI N,ZHAO F L,LI K A.Study on Determination of Protein with Arsenazo I Using Resonance Light Scattering Technique[J].Spectroscopy and Spectral Analysis[J],2002,22(4): 619-622.
[46]Li Y,Dong L J,Wang W P,Hu Z D,Chen X G.Flow injection analysis-Rayleigh light scattering detection for online determination of protein in human serum sample[J].Analytical Biochemistry,2006,354:64-69.
[47]Jia R P,Dong L J,Li Q F,Chen X G,Hu Z D.Study of the interaction of protein and dibromomethyl-Arsenazo-Al(Ⅲ)by Rayleigh light-scattering technique[J].Anal.Chim.Acta.2001,442:249-256.
[48]Li Q F,Chen X G,Zhang H Y,et al.Microdetermination of Proteins Using m-carboxycholrophosphonazo as Detection Probe by Enhanced Resonance Light Scattering Spectroscopy[J].Fresenius Journal of Analytical Chemistry,2000,368(7):715-719.
[49]刘绍璞,范莉,龙秀芬,等.偶氮氯膦Ⅲ共振瑞利散射法测定蛋白质[J].西南师范大学学报,2001,26(3):293-296.
[50]Yang C X,Li Y F,Huang C Z.Determination of Proteins with Fast Red Vr by a Corrected Resonance Light-Scattering Technique[J].Analytical Sciences.2003,19(2):211-215.
[51]谭克俊,李原芳,黄承志.用比布列西猩红共振光散射技术测定蛋白质[J].西南师范大学学报:自然科学版,2003,28(5):715-720.
[52]苏小东,李树伟,王小红,等.铍试剂共振光散射光谱法测定蛋白质的研究[J].仪器仪表与分析监测,2003,3:35-36,46.
[53]冯宁川,龚国权,冯尚琴,等.苯甲天青—蛋白质体系的瑞利光散射特征及其分析应用[J].兰州大学学报,2002,38(1):132-134.
[54]Huang C Z,Li Y F,Mao J G,Tan D G.Determination of protein concentration by enhancement of the preresonance light-scattering of α,β,γ,δ-tetrakis(5-sulfothienyl)porphine[J].Analyst.1998,123:1401-1406.
[55]Chen X L,Li D H,Zhu Q Z,Yang H H,Zheng H,Wang Z H,Xu J G.Determination of proteins at nanogram levels by a resonance light-scattering technique with tetra-substituted sulphonated aluminum phthaloeyanine[J].Talanta.2001,53(6):1205-1210.
[56]龙秀芬,刘绍璞.磷锑钼蓝共振瑞利散射法测定蛋白质[J].西南师范大学学报.2000,25(2):155-159.
[57]Feng P,Hu X L,Huang C Z.Determination of proteins at nanogram levels with their enhancement effects of resonance light scattering on quercetin[J].Anal.Lett.1999,32:1323-1338.
[58]王林,王照丽,李树伟.简易荧光仪共振光散射光谱法测定蛋白质的研究[J].化学研究与应用,2001,13(5):591-593.
[59]陈红旗,马娟,刁雪莲.PbS-PAA复合纳米粒子共振光散射法测定蛋白质[J].分析测试学报,2005,24(6):56-58.
[60]张萍,卓淑娟,陈金龙.藉L-半胱氨酸包覆的ZnS纳米粒子的共振光散射定量分析蛋白质[J].分析试验室,2005,24(3):87-91.
[61]Liu R T,Yang J H,Sun C X,Wu X,Li L,Li Z M.Resonance light-scattering method for the determination of BSA and HSA with sodium dodecyl benzene sulfonate or sodium lauryl sulfate[J].Anal Bioanal Chem.2003,377:375-379.
[62]潘自红,陈丽华,郝成君.吡咯红Y-SDS-蛋白质体系的共振光散射光谱研究[J].化工时刊.2007,21(12):27-29.
[63]Huang C Z,Li K A,Tong S Y.Determination of Nanograms of Nucleic Acids by Their Enhancement Effect on the Resonance Light Scattering of the Cobalt(Ⅱ)/4-[(5-Chloro-2-pyridyl)azo]-1,3-diaminobenzene Complex Anal[J].Chem.1997,69(3):514-520.
[64]Huang C Z,Li Y F,Liu X D.Determination of Nucleic Acids at Nanogram Levels with Safranine T by a Resonance Light-Scattering Technique[J].Anal.Chem.Acta.1998,375(1—2):89-97.
[65]葛从辛,胡富陶,干宁.苯胺红T共振瑞利散射法测定生物样品中核酸[J].宁波大学学报(理工版).2006,19(3):18-22.
[66]Wang Y T.Anal.Chim.Acta.1999.396:75-81.
[67]黄新华,舒为群,李原芳,等.溴代十六烷基三甲基铵敏化亮绿一脱氧核糖核酸作用的共振光散射增强研究[J].分析化学.2001,29(3):271-275.
[68]向海艳,陈小明,李松青等.中性红共振光散射法测定脱氧核糖核酸[J].光谱学与光谱分析.2001,21(6):822-825.
[69]黄新华,黄承志,黄玉明.中性红用于痕量DNA测定[J]_西南师范大学学报,2000,25(3):273-276.
[70]Huang C Z,Li Y F,Deng S Y,et al.Assembly of methylene blue on nucleic acid template as studied by resonance light scattering technique and determination of nucleic acids of nanogram[J].Bull Chem.Soc.1999,72:1501-1508.
[71]向海艳,陈小明,李松青等.亚甲基蓝共振光谱散射法测定脱氧核糖核酸[J].分析化学,2000,28(11):1398-1400.
[72]李天剑,沈韩熙.乙基紫-脱氧核糖核酸共振发光体系的研究及其分析应用[J].高等学校化学学报.1998,19(10):1507-1511.
[73]刘绍璞,龙秀芬,胡小莉等.核酸-某些碱性三苯甲烷染料体系的RRS及其分析应用[J].西南师范大学学报.2001,26(2):164-167.
[74]刘晨,胡灏,陈小明.结晶紫共振光散射法测定脱氧核糖核酸[J]1分析试验室.2001,20(2):30-33.
[75]Liu Y,Ma C Q,Li K A et al.Anal.Biochem.1999,268:187.
[76]刘晨,陈小明,向海艳等.玫苯胺共振光散射法测定DNA[J].光谱学与光谱分析,2001,21(5):697-701.
[77]达毛拉·杰力里,黄承志.酚藏花红与DNA作用的共振光散射特征及微量DNA的光散射测定[J].分析化学.1999,27(10):1204.
[78]Huang C Z,Pu Q H,Lai L J,Li Y F.Interactions of nile blue sulphate with nucleic acids as studied byresonance light-scattering measurements and determination of nucleic acids at nanogram levels[J].Analytical Letters,1999,32(12):2395-2415.
[79]Huang C Z,Hu X L,Bin Li N,Li Y E Three-dimensional spectra of the long-range assembly of Nile Blue sulfate onthe molecular surface of DNA and determination of DNA by light-scattering[J].Analytica Chimica Acta,1999,395(1-2):187-197.
[80]黄承志,李原芳,李念兵等.耐尔蓝硫酸盐在核酸分子表面的长距组装及核酸的三波长共振光散射测定[J].分析化学,1999,27(11):1241-1244.
[81]刘晨,陈小明.灿烂甲酚蓝共振光谱散射法测定脱氧核糖核酸[J].分析化学,2001,29(6):685-687.
[82]向海艳,陈小明,周迪武.副品红共振光散射法测定脱氧核糖核酸[J].光谱学与光谱分析,2002,22(6):1051-1054.
[83]Liu Y,Ma C Q,Li K A et al.Simple and sensitive assay for nucleic acids by use of Rayleigh light scattering technique with rhodamine B[J].Anal.Chim.Acta.1999,379:39-44.
[84]俞英,黄发德.核酸与丁基罗丹明B体系的共振散射光谱[J].分析化学.2002,30(10):1234-1236.
[85]吴会灵,李文友,何锡文等.罗丹明6G与核酸作用的共振光散射光谱及其分析应用[J]. 分析科学学报.2002,18(2):94-97.
[86]陈小兰,李东辉,朱庆枝等.用四氨基铝酞菁共振光散射技术测定纳克级核酸[J].高等学校化学学报.2001,22(6):901-904.
[87]黄新华,舒为群,李原芳等.溴代十六烷基三甲基铵敏化亮绿脱氧核糖核酸作用的共振光散射增强研究[J].分析化学,2001,29(3):271-274.
[88]方光荣,李玲,刘立明等.DNA的亮绿共振光散射法测定[J].分析测试学报.2002,21(6):35-38.
[89]陈宇春,徐昆,李原芳等.阳离子表面活性剂存在下孔雀石绿与脱氧核糖核酸的作用及分析应用[J].西南师范大学学报.2002,27(4):617-620.
[90]李玲,宋功武,方光荣等.孔雀石绿在核酸表面分子的长距组装及其共振光散射法测定脱氧核糖核酸[J].湖北大学学报.2002,24(3):246-248.
[91]冯宁川,林枫,刘利军.次甲基绿-溴代十六烷基三甲基铵体系共振光散射法测定脱氧核糖核酸[J].中国卫生检验杂志.2005,15(2):172-173.
[92]高峰,章丽,李永新等.溴代十六烷基三甲基铵敏化吡罗红B-核酸作用的共振光散射增强法测定核酸[J].分析科学学报.2005.21(6):623-626.
[93]陈艳晶,杨景和,吴霞等.间苯二酚黄-CTAB-核酸共振光散射体系的研究及应用[J].光谱实验室.2002,19(3):299-302.
[94]王粤博,吴霞,杨景和等.间甲酚紫-DNA体系共振光散射法测定DNA[J].Chemic Journal on Internet.2003,5(1):10.
[95]苏界殊,陈小明,罗和安.三甲基品红与脱氧核糖核酸作用的共振光散射光谱的研[J].分析测试学报.2005,24(1):60-63.
[96]万新军,刘金水,王伦.吖啶橙共振光散射法测定脱氧核糖核酸[J].光谱学与光谱分.2005,25(5):754-756.
[97]王永生,肖锡林,李贵荣等.吖啶橙共振光散射法测定痕量脱氧核糖核酸[J].分析试学报.2004,23(6):29-31.
[98]王峰,杨景和,吴霞等.灵敏的共振光散射测定核酸的新方法.山东大学学报:理学.2004,39(6):96-100.
[99]蔡朝霞,宋功武,李玲等.荧光素共振光散射法测定脱氧核糖核酸[J].分析化学.2004,32(5):647-650.
[100]肖锡林,王永生,李贵荣等.甲苯胺蓝共振光散射法测定纳克级脱氧核糖核酸[J].光学 与光谱分析.2004,24(2):190-193.
[101]龙云飞,陈小明,张馨等.吖啶黄共振光散射法检测脱氧核糖核酸[J].分析化学.2003,1(11):1404-1404.
[102]李永新,赵丹华,朱昌青等.溴化十六烷基三甲基铵敏化四磺基锰酞菁-脱氧核糖核作用的共振光散射增强研究[J].分析化学.2003,31(6):694-697.
[103]向海艳,陈小明.副品红共振光散射法测定脱氧核糖核酸[J].光谱学与光谱分析,2002,22(6):1051-1053.
[104]刘绍璞,胡小莉,罗红群等.阳离子表面活性剂与核酸反应的共振Rayleigh散射特征及其分析应用[J].中国科学(B辑).2002,32(1):18-26.
[105]冯索玲,刘雪平,樊静.十六烷基溴化吡啶与脱氧核糖核酸的共振光散射光谱及其分析应用[J].分析化学.2005,33(3):377-380.
[106]汪澜,何瑜,宋功武.聚甲基丙烯酰氧乙基溴化铵共振光散射法测定核酸[J].胶体与聚合物.2005,23(3):43-45.
[107]陈展光,丁卫锋,韩雅莉.两性离子表面活性剂作为共振光散射探针测定脱氧核糖核酸[J].分析化学.2005,33(4):519-522.
[108]饶震红,熊艳梅,任丽萍等.十二烷基硫酸钠敏化联苯胺共振光散射技术测定脱氧核糖核酸[J].光谱学与光谱分析.2004,24(9):1035-1038.
[109]周颖琳,常文保,李元宗.聚二烯丙基二甲基氯化铵与核酸相互作用的共振光散射光谱及其分析应用[J].分析化学.2004,32(2):169-173.
[110]Li Z P,Li K A,Tong S Y.Determination of nucleic acids in acidic medium by enhanced light scattering of large particles[J].Talanta.2000,51(1):63-70.
[111]Huang C Z,Li K A,Tong S Y.Determination of Nanograms of Nucleic Acids by Their Enhancement Effect on the Resonance Light Scattering of the Cobalt(Ⅱ)/4-[(5-Chloro-2-pyridyl)azo]-1,3-diaminobenzene Complex[J].Anal.Chem.1997,69(3):514-520.
[112]杨传孝,李原芳,奉萍,黄承志.铝离子与脱氧核糖核酸作用的共振光散射研究[J].分析化学.2002,30(4):473-477.
[113]朱昌青,李东辉,郑洪,朱庆枝,许金钩.核酸对氯化银胶体溶液共振光散射的猝灭作用及其应用[J].分析化学.2000,28(12):1485-1488.
[114]齐树民编.药理学进展.北京:人民卫生出版社,1985.319.
[115]刘晨,陈献桃,李松青等.小檗碱共振光散射法测定脱氧核糖核酸[J].分析化学.2002,30(10):1218-1222.
[116]刘绍璞,胡小莉,范莉等.用新洁尔灭测定核酸的共振瑞利散射方法研究[J].西南师范大学学报.2002,27(2):188-193.
[117]吕文娟,陈兴国,胡之德.大黄酸与核酸作用的共振光散射特征及机理研究.兰州大学学报(自然科学版).2006,42(4):61-65.
[118]Liu S P,Luo H Q,Luo H Q.Resonance Rayleigh scattering method for the determination of vitamin B_1 with methyl orange[J].Anal Sci.2002,18(09):971-978.
[119]胡小莉.西南师范大学硕士学位论文,2001.
[120]张立萍.共振瑞利散射在分析化学中的应用[J].华北煤炭医学院学报.2005,7(5):590-591.
[121]Liu S P,Liu Q,Liu Z F,et al.Resonance Rayleigh scattering of chromium(Ⅵ)—iodide basic triphenylmethanedye systemsand their analytical application[J].Anal.Chem.Acta.1999,379:53-61.
[122]刘绍璞,杨睿,刘忠芳等.铬(Ⅵ)-碘化钾-维多利亚蓝4R体系的共振瑞利散射和二级散射及其分析应用[J].分析化学,1998,26(12):1432-1426.
[123]王照丽,张新申,罗娅君等.铬Ⅵ-碘化物-罗丹明6G体系共振光散射光谱法测定铬Ⅵ[J].冶金分析,2003,23(4):4-5.
[124]方骏,金雅殡,夏小庆等.痕量Cr(Ⅲ)的共振光散射法测定[J].安全与环境学报,2003,3(6):9-10.
[125]衷明华.共振光散射光谱法测定电镀废水中铬(Ⅵ)[J].Electroplating& Pollution Control.2006,36(26):36-37.
[126]陈兰化,刘发光.共振光散射光谱法测定水中铬(Ⅵ)[J].中国卫生检验杂志.2006,16(2):205-206
[127]Liu S P,Liu Z F,Luo H Q.Resonance Rayleigh Scattering method for the determination of trace amounts of cadmium with iodier hodamine dye systems[J].Anal.Chem.Acta.2000,407:255.
[128]Liu S P,Liu Z F,Luo H Q et al.Resonance Rayleigh scattering method for the determination of trace amounts of Cadium with Iodide Basic Triphenylmethane dye systems[J].Fresenius J.Anal.Chem.2000,368:848-852.
[129]曾铭,李树伟,王小红等.共振光散射光谱法测定镉的研究及应用[J].四川师范大学学 报(自然科学版),2005,28(2):218-221.
[130]韩志辉,吕昌银,杨胜圆.Cd~(2+)-PAN-聚乙烯醇共振瑞利散射法测定水中痕量镉[J].分析科学学报.2006,22(1):77-79.
[131]韩志辉,吕昌银,傅仕福等.共振散射法测定环境水样中的痕量镉[J].中国卫生检验杂志.2005,15(1):20-22.
[132]王小红,李树伟,张万诚等.铅—BSA-刚果红体系共振散射光谱法测定铅的含量的研究[J].四川师范大学学报(自然科学版),2004,27(2):198-201.
[133]王丹,罗红群,李念兵等.碘化物-甲基紫体系共振瑞利散射法测定痕量铅[J].西南师范大学学报(自然科学版),2004,29(6):1005-1008.
[134]李小燕,李树伟,王小红等.共振光散射比浊法测定环境水样中Pb(Ⅱ)[J].西南民族大学学报(自然科学版),2005,3l(2):192-194.
[135]王丹,罗红群,李念兵.碘化物-罗丹明6G体系共振瑞利散射法测定痕量铅[J].环境化学,2005,24(1):97-100.
[136]Liu S P,Liu Z F,Li M.Resonance luminescence spectra of selenium(Ⅳ)iodide-rhodamieB system and its analytical application[J].Southwest China Normal University(Natural Science),1996,21(5):20-22.
[137]Liu S P,Liu Z F,Luo H Q.Resonance Rayleigh scattering for an indirect determination of trace amounts of selenium(Ⅳ)with iodide-basic triphenylmethane dye systems[J].Anal.Sci.1998,14(4):799-802.
[138]贺冬秀,李贵荣,吕昌银.共振光散射法测定环境水样中痕量亚硝酸根[J].南华大学学报(理工版).2003,17(4):42-44.
[139]龙云飞,陈小明,杨伟军等.吖啶黄共振光散射法测定亚硝酸根[J].分析化学.2004,32(1):127-130.
[140]贺冬秀,李贵荣,杨慧仙等.罗丹明B共振光散射法测定水中痕量亚硝酸根[J].中国卫生检验杂志.2004,14(6):689-690.
[141]蒋治良,李芳,梁宏.磷钼杂多酸—罗丹明S体系的共振散射光谱研究[J].化学学报.2000,58:1059.
[142]刘绍璞,周光明,刘忠芳等.共振瑞利散射法测定硫氰酸盐-碱性三苯甲烷染料体系中的痕量铝[J].高等学校化学学报.1998,19(7):1040.
[143]韩志辉,吕昌银,杨胜圆.硫化银体系共振散射光谱研究及分析应用[J].光谱实验室, 2005,22(2):242-246.
[144]韩志辉,吕昌银,杨胜圆.银-邻菲罗啉·酸性三苯甲烷染料体系共振瑞利散射法测定痕量银[J].分析测试学报.2006,25(1):79-62.
[145]蒋治良,潘宏程,袁伟恩.铬天青S-铝(Ⅲ)-聚乙二醇4000体系的共振散射光谱及其应用[J].环境化学.2004,23(5):573-577.
[146]王小红,李树伟,苏小东等.共振光散射比浊发测定钾[J].化学研究与应用.2004,16(16):837-838.
[147]李树伟,苏小东,王小红等.共振光散射光谱法测定痕量氯离子[J].化学研究与应用.2004,16(14):535-536.
[148]张涛,陈丹丹,任丽萍等.共振光散射法测定甲哌翁水剂中的氯含量[J].农药.2006,45(2):111-113.
[149]衷明华.碘化物-十六烷基三甲基溴化铵体系共振光散射法测定铜[J].分析仪器.2006,1:24-27.
[150]曾晓燕,黄婉莹,吴雪群等.散射光谱法测定微量铜的研究[J].江西化工,2005,4:117-120.
[151]衷明华.碘化物-CTMAB体系共振光散射法测定电镀废水中的钯[J].化学分析计量,2006,15(1):18-20.
[152]许发功,陈红旗,王家亮,刘宇杰,汪乐余,王伦.CuS/Cu~(~(2+))和ZnS/Zn~(~(2+))纳米溶胶的合成与光学性质的研究[J].安徽师范大学学报(自然科学版).2004,27(2):166-168.
[153]张红梅,杜晓燕,李伟伟.共振光散射技术测定水中十二烷基硫酸钠[J].中国卫生检验杂志.2007,17(1):79-81.
[154]达毛拉·杰力里,黄承志.酚藏花红与DNA作用的共振光散射特征及微量DNA的光散射测定[J].分析化学.27(10):1204-1207.
[155]Huang C Z,Li Y F,Hu XL,at el.Three-dimensional spectra of the long-range assembly of nile blue sulfate on the molecular surface of DNA and determination of DNA by light-scattering[J].Anal Chem Acta,1999,395:187-197.
[156]Tan K J,Li Y F,Huang C Z.Flow-injection resonance light scattering detection of proteins at the nanogram level[J].Luminescence.2005,20:176-180.
[157]Huang C Z,Pang X B,Li Y F.Determination of heparin using Azure B by flow injection analysis-resonance light scattering coupled technique[J].Anal.lett.2005,38,317-330.
[158]Vidal E,Palomeque M E,Lista A G,Band,B E Flow injection analysis:Rayleigh light scattering technique for total protein determination[J].Anal.Bioanal.chem.2003,376:38-41.
[159]代小霞,李原芳,黄承志.流动注射-共振光散射联用技术测定注射液中肝素的含量[J].分析化学.2005,33:1535-1538.
[160]Li Y,Dong L J,Zhang Y H,Hu Z D,Chen X G.Determination of proteins by flow injection analysis coupled with the Rayleigh light scattering technique[J].Talanta,2007,71(1):109-114.
[161]Pasternack R F,Bustamante C,Collings P J,Giannetteo A,GibbsE J.Porphyrin assemblies on DNA as studied by a resonance light-scattering technique[J].J.Am.Chem.Soc.115(1993):5393-5399.
[162]Pastemack R F,Collings P J.Resonance light scattering:a new technique for studying chromophore aggregation[J].Science.1995,269:935-939.
[163]Feng P,Shu W Q,Huang C Z,Li Y F.Total internal reflected resonance light scattering determination of chlortetracycline in body fluid with the complex cation of chlortetracycline-europium-trioctyl phosphine oxide at the water/tetrachloromethane interface[J].Anal.Chem.2001,73:4307-4312.
[164]Feng P,Huang C Z,Li Y F.Direct quantification of human serum albumin in human blood serum without separation of gamma-globulin by the total internal reflected resonance light scattering of thorium-sodium dodecylbenzene sulfonate at water/tetrachloromethane interface[J].Anal.Biochem.2002,308:83-89.
[165]Lu W,Huang C Z,Li Y F.A sensitive and selective assay of nucleic acids by measuring enhanced total internal reflected resonance light scattering signals deriving from the evanescent field at the water/tetrachloromethane interface[J].Analyst.2002,127:1392-1396.
[166]Huang C Z,Lu W,Li Y F.Total internal reflected.resonance light scattering detection of DNA at water/tetrachloromethane interface with acrindine orange and cetyltrimethylammonium bromide[J].Analytica Chimica Acta.2003,494:11-19.
[167]Lu W,Huang C Z,Li Y F.Novel assay of thiamine based on its enhancement of total intemal reflected resonance light scattering signals of sodium dodecylbenzene sulfonate at the water/tetrachloromethane interface[J].Analytica Chimica Acta.2003,475:151-161.
[168]Huang C Z,Liu Y,Wang Y H,Guo H P.Resonance light scattering imaging detection of proteins with α,β,γ,δ-tetrakis(p-sulfophenyl)porphyrin[J].Analytical Biochemistry.2003,321(2): 236-243.
[169]Wang Y H,Guo H P,Tan K J,Huang C Z.Backscattering light detection of nucleic acids with tetraphenylporphyrin-Al(Ⅲ)-nucleic acids at liquid/liquid interface[J].Analytica Chimica Acta.2004,521(1):109-115.
[170]Roll D,Malicka J,Gryczynski I,Gryczynski Z,Lakowicz J R.Metallic Colloid Wavelength-Ratiometric Scattering Sensors[J],Anal.Chem.2003,75(14):3440-3445.
[171]Asian K,Lakowicz J R,Geddes C D.Nanogold Plasmon Resonance-Based Glucose Sensing Wavelength-Ratiometric Resonance Light Scattering[J].Anal.Chem.2005,77(7),2007-2014.
[172]苏小东.共振光散射比浊法在环境分析中的研究及应用.四川师范大学硕士毕业论文.2001.
[173]刘程,张万福,陈长明.表面活性剂应用手册[M].化学工业出版社.1995,1-2.
[174]刘绍璞,胡小莉,罗红群等.阳离子表面活性剂与核酸反应的共振Rayleigh散射特征及其分析应用[J].中国科学(B辑).2002,32(1):18-26.
[175]衷明华,温红丽.碘化物-CTMAB体系共振光散射法测定铋[J].理化检验-化学分册.2008,44:50-52.
[176]李韧韬,苏界殊,龙云飞.固黄O-CTMAB-DNA三元体系的共振光散射光谱的研究及应用[J].湖南科技大学学报(自然科学版).2007,22(3):109-112.
[1]Fujita Y,Mori I,Ikuta K,Nakahashi Y,Kato K,Nakanishi T.Highly sensitive spectrophotometric determination of human serum albumin with 3′,4′,5′,6′-tetrachlorogallein-molybdenum(Ⅵ)complex[J].Chem.Pharm.Bull.1989,37:2452-2455.
[2]Li N,Li K A,Tong S Y.A novel protein assay method using tetraphenylporphin tetrasulfonate (TPPS4)[J].Anal.Lett.1995,28:1763-1774.
[3]Li Z P,Li K A,Tong S Y.Microdetermination of Proteins with the 1,10- Phenan throline--H2O2-Cetyltrimethylammonium Bromide-Cu(Ⅱ)Chemiluminescence System[J].Mierochem.J.1998,60:217-223.
[4]Matthew F,Smiechowski V F,Lvovieh S R,et al.Electrochemical detection and characterization of proteins[J].Biosensors and Bioelectronics,2006,22:670-677.
[5]Rousseau,D.L.Optical Techniques in Biological Research.Academic Press,Inc.,1984;4 pp.
[6]Huang C Z,Li K A,Tong S Y.Determination of Nanograms of Nucleic Acids by Their Enhancement Effect on the Resonance Light Scattering of the Cobalt(Ⅱ)/4-[(5-Chloro -2-pyridyl)azo]-1,3-diaminobenzene Complex[J].Anal.Chem.1997,69:514-520.
[7]Huang C Z,Li Y F,Liu X D.Determination of Nucleic Acids at Nanogram Levels with Safranine T by a Resonance Light-Scattering Technique[J].Anal.Chem.Acta,1998,375(1-2):89-97
[8]葛从辛,胡富陶,干宁.苯胺红T共振瑞利散射法测定生物样品中核酸[J].宁波大学学报(理工版).2006,19(3):18-22.
[9]Li Z P,Li K A,Tong S Y.Determination of nucleic acids in acidic.medium by enhanced light scattering of large particles[J].Talanta.2000,51(1):63-70.
[10]Liu Y,Ma C Q,Li K A,Xie F C,Tong S Y.Rayleigh Light Scattering Study on the Reaction of Nucleic Acids and Methyl Violet[J].Anal.Biochem.1999,268:187-192.
[11]杨睿,刘绍璞.某些分子光谱分析法测定蛋白质的进展[J].分析化学.2001,29(2):232-234.
[12]Huang C Z,Li Y F,Mao J G,Tan D G.Determination of protein concentration by enhancement of the preresonance light-scattering of a,α,β,γ,δ-tetrakis(5-suifothienyl)porphine[J].Analyst. 1998.123:1401-1406.
[13]龙秀芬,刘绍璞.磷锑钼蓝共振瑞利散射法测定蛋白质[J].西南师范大学学报.2000,25(2):155-159.
[14]Feng P,Hu X L,Huang C Z.Determination of proteins at nanogram levels with their enhancement effects of resonance light scattering on quercetin[J].Anal.Lett.1999 32:1323-1338.
[15]Jia R P,Dong L J,Li Q F,Chen X G,Hu Z D.Study of the interaction of protein and dibromomethyl-Arsenazo-Al(Ⅲ)by Rayleigh light-scattering technique[J].Anal.Chim.Acta.2001,442:249-256.
[16]Li Q F,Chen X G,Zhang H Y,et al.Microdetermination of Proteins Using mcarboxycholrophosphonazo as Detection Probe by Enhanced Resonance Light Scattering Spectroscopy[J].Fresenius Journal of Analytical Chemistry.2000,368(7):715-719.
[17]Yao G,Li K A,Tong S Y.Determination of protein by its enhancement effect on the Rayleigh light scattering ofearboxyarsenazo[J].Talanta.1999,50:585-594.
[18]Zhong H,Wang K,Chen H Y.Protein analysis with tetra-substituted sulfonated cobalt phthalocyanine by the technique of Rayleigh light scattering[J].Anal.Biochem.2004,330:37-42.
[19]Dong L J,Jia R P,Li Q F,Chen X G,Hu Z D.Quantitative determination of proteins by the Rayleigh light-scattering technique after optimization of the derivation reaction with Arsenazo-DBS[J].Anal.Chim.Acta.2002,459:313-322.
[20]Tan K J,Li Y F,Huang C Z.Flow-injection resonance light scattering detection of proteins at the nanogram level[J].Luminescence.2005,20:176-180.
[21]Huang C Z,Pang X B,Li Y F.Determination of heparin using Azure B by flow injection analysis-resonance light scattering coupled technique[J].Anal.lett.2005,38:317-330.
[22]Vidal E,Palomeque M E,Lista A G,Band B S F.Flow injection analysis:Rayleigh light scattering technique for total protein determination[J].Anal.Bioanal.chem.2003,376:38-41.
[23]代小霞,李原芳,黄承志.流动注射—共振光散射联用技术测定注射液中肝素的含量[J].分析化学.2005,33:1535-1538.
[24]Jiang B,Hu Q H.Study on resonance rayleigh scattering of serum proteins with sodium dodecyl sulfonate and it's analytical application[J].Journal of Guangxi normal university.2002,20:60-64.
[25]Carter D C,Ho J X.Structure of serum albumin[J].Adv.Protein Chem.1994,45:152-203.
[26]He J X,Carter D C.Atomic structure and chemistry of human serum albumin[J].Nature.1992,358:209-215.
[27]Curry S,Brick P,Franks N P.Fatty acid binding to human serum albumin:new insights from crystallographic studies[J].Biochim Bioph.Acta.1999,1441:131-140.
[28]Sudlow G,Birkett D J,Wade D N.The characterization of two specific drug binding sites on human serum albumin[J].Mol.Pharmacol.1975,11:824-832.
[29]Sudlow G,Birkett D J,Wade D N.Further characterization of specific drug binding sites on human serum albumin[J].Mol.Pharmacol.1976,12:1052-1061.
[30]Zor T,Selinger Z.Linearization of the Bradford Protein Assay Increases Its Sensitivity:Theoretical and Experimental Studies[J].Anal.Biochem.1996,236:302-308.
[31]Kessler M A,Meintizer A,Wolfbeis O S.Albumin Blue 580 Fluorescence Assay for Albumin[J].Anal.Biochem.1997,248:180-182.
[32]Sun W,Jiao K,Wang X L,Lu L D.Electrochemical studies of the reaction between albumin and amaranth and its analytical application[J].Journal of Electroanalytical Chemistry 2005,578:37-43.
[33]Guo Z X,Shen H X.A highly sensitive assay for protein using resonance light-scattering technique with dibromohydroxyphenylfluorone-molybdenum(Ⅵ)complex[J].Spectrochimica Acta Part A:Molecular and Biomolecular Spectroscopy.1999,55(14):2919-2925.
[34]Li Y,Dong L J,Wang W P,Hu Z D,Chen X G.Flow injection analysis-Rayleigh light scattering detection for online determination of protein in human serum sample[J].Analytical Biochem.2006,354(1):64-69.
[1]Lowry O H,Rosebrough N J,Farr A L,Randall R J.Protein measurement with the folin phenol reagent[J].J.Biol.Chem.1951,193:265-275.
[2]Bradford M M.A rapid and sensitive method for quantitation of microgram quantities of protein utilizing the principle of protein-dye-binding[J].Anal Biochem.1976,72:248-54.
[3]Zor T,Selinger Z.Linearization of the Bradford protein assay increases its sensitivity:theoretical and experimental studies[J].Anal Biochem.1996,236:302-308.
[4]Flores R A.rapid and reproducible assay for quantitative eatimation of proteins using bromophenol blue[J].Anal Biochem.1978,88:605-611.
[5]Rodkly R L.Binding of bromocresol green by human serum albumin[J].Arch.Biochem.Biophys.1964,108:510-513.
[6]Pasternack R F,Bustamante C,Collings P J,et al.Porphyrin Assemblies on DNA as Studied by a Resonance Light-Scattering Technique[J].J Am Chem Soc,1993,115:5393-5399
[7]杨睿,刘绍璞.某些分子光谱分析法测定蛋白质的进展[J].分析化学.2001,29(2):232-234.
[8]Huang C Z,Li Y F,Mao J G,Tan D G.Determination of protein concentration by enhancement of the preresonance light-scattering of α,β,γ,δ-tetrakis(5-sulfothienyl)porphine[J].Analyst.1998,123:1401-1406.
[9]龙秀芬,刘绍璞.磷锑钼蓝共振瑞利散射法测定蛋白质[J].西南师范大学学报.2000,25(2):155-159.
[10]Feng P,Hu X L,Huang C Z.Determination of proteins at nanogram levels with their enhancement effects of resonance light scattering on quercetin[J].Anal.Lea.1999 32:1323-1338.
[11]LI Y F,HUANG C Z,LI M.Resonance Light Scattering Determination of Proteins with Fast Green FCF.Analytical Sciences[J],2002,18(2):177-181.
[12]冯宁川,何苏萍,张娟,刘建平.依来铬青R-蛋白质体系的共振光散射特征及微量蛋白质的光散射法测定.光谱学与光谱分析[J],2004,24(2):194-196.
[13]Yao G,Li K A,Tong S Y.Determination of protein by its enhancement effect on the Rayleigh light scattering of carboxyarsenazo[J].Talanta.1999,50:585-594.
[14]Zhong H,Wang K,Chen H Y.Protein analysis with tetra-substituted sulfonated cobalt phthalocyanine by the technique of Rayleigh light scattering[J].Anal.Biochem.2004,330:37-42.
[15]Dong L J,Jia R P,Li Q F,Chen X G,Hu Z D.Quantitative determination of proteins by the Rayleigh light-scattering technique after optimization of the derivation reaction with Arsenazo-DBS[J].Anal.Chim.Acta.2002,459:313-322.
[16]Huang C Z,Li K A,Tong S Y.Determination of Nanograms of Nucleic Acids by Their Enhancement Effect on the Resonance Light Scattering of the Cobalt(Ⅱ)/4-[(5-Chloro -2-pyridyl)azo]- 1,3-diaminobenzene Complex[J].Anal.Chem.1997,69:514-520.
[17]Huang C Z,Li Y F,Liu X D.Determination of Nucleic Acids at Nanogram Levels with Safranine T by a Resonance Light-Scattering Technique[J].Anal.Chem.Acta,1998,375(1-2):89-97
[18]葛从辛,胡富陶,干宁.苯胺红T共振瑞利散射法测定生物样品中核酸[J].宁波大学学报(理工版).2006,19(3):18-22.
[19]Li Z P,Li K A,Tong S Y.Determination of nucleic acids in acidic medium by enhanced light scattering of large particles[J].Talanta.2000,51(1):63-70.
[20]Liu Y,Ma C Q,Li K A,Xie F C,Tong S Y.Rayleigh Light Scattering Study on the Reaction of Nucleic Acids and Methyl Violet[J].Anal.Biochem.1999,268:187-192.
[21]Liu S P,Luo H Q,Luo H Q.Resonance Rayleigh scattering method for the determination of vitamin B1 with methyl orange[J].Anal Sci.2002,18(09):971-978.
[22]胡小莉.西南师范大学硕士学位论文.2001.
[23]张立萍.共振瑞利散射在分析化学中的应用[J].华北煤炭医学院学报.2005,7(5):590-591.
[24]Liu S P,Liu Q,Liu Z F,et al.Resonance Rayleigh scattering of chromium(Ⅵ)—iodide basic triphenylmethanedye systemsand their analytical application[J].Anal.Chem.Acta.1999,379:53-61.
[25]王照丽,张新申,罗娅君等.铬Ⅵ-碘化物-罗丹明6G体系共振光散射光谱法测定铬Ⅵ[J].冶金分析,2003,23(4):4-5.
[26]衷明华.共振光散射光谱法测定电镀废水中铬(Ⅵ)[J].Electroplating& Pollution Contrlo.2006,36(26):36-37.
[27]许发功,陈红旗,王家亮,刘宇杰,汪乐余.CuS/Cu~(~(2+))和ZnS/Zn~(~(2+))纳米溶胶的合成与光学性质的研究[J].安徽师范大学学报(自然科学版).2004,27(2):166-168.
[28]张红梅,杜晓燕,李伟伟.共振光散射技术测定水中十二烷基硫酸钠[J].中国卫生检验杂志.2007,17(1):79-81.
[29]张爱梅,臧运波.达旦黄-OP体系共振瑞利散射法测定蛋白质[J].聊城大学学报(自然科学版).2004,17(4):38-40.
[30]潘自红,陈丽华,郝成君.吡咯红Y-SDS-蛋白质体系的共振光散射光谱研究[J].化工时刊.2007,21(12):27-29.
[31]Zhong H,Xu J J,Chen H Y.A rapid and sensitive method for the determination of trace proteins based on the interaction between proteins and Ponceau 4R[J].Talanta.2005,67:749-754.
[32]Jia R P,Dong L J,Li Q F,Chen X G,Hu Z D.Study of the interaction of protein and dibromomethyl-Arsenazo-Al(Ⅲ)by Rayleigh light-scattering techniqu e[J].Anal.Chim.Aeta.2001,442:249-256.
[33]Li Q F,Chen X G,Zhang H Y,et al.Microdetermination of Proteins Using mcarboxycholrophosphonazo as Detection Probe by Enhanced Resonance Light Scattering Spectroscopy[J].Fresenius Journal of Analytical Chemistry.2000,368(7):715-719.
[34]Carter D C,Ho J X,Structure of serum albumin[J].Adv.Protein Chem.1994,45:152-203.
[35]He J X,Carter D C.Atomic structure and chemistry of human serum albumin[J].Nature.1992,358:209-215.
[36]Curry S,Brick P,Franks N P.Fatty acid binding to human serum albumin:new insights from crystallographic studies[J].Biochim Bioph.Acta.1999,1441:131-140.
[37]Sudlow G,Birkett D J,Wade D N.The characterization of two specific drug binding sites on human serum albumin[J].Mol.Pharmacol.1975,11:824-832.
[38]Sudlow G,Birkett D J,Wade D N.Further characterization of specific drug binding sites on human serum albumin[J].Mol.Pharmacol.1976,12:1052-1061.