光谱法测定动物体液中白蛋白的研究
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摘要
近年来,随着我国畜牧业的不断发展,畜禽品种和数量有了很大幅度的增加。相应的,我国畜禽疾病的种类和发生频率也大大增加,这给我国的畜禽业造成了巨大的经济损失。因此,畜禽疾病的快速诊断是很重要的研究课题。血清白蛋白是血液中含量最丰富的蛋白质,它在动物体液中的含量变化可以作为诊断疾病的依据。利用新研究的光谱探针检测动物体液中蛋白质的含量,并应用于动物疾病的诊断和防治,是一项非常有意义的工作。
本文重点开展了有机小分子二苯胺磺酸钠,二甲酚橙及萘酚绿B等光谱探针与蛋白质的相互作用研究,并将研究应用于动物体液中蛋白质含量的测定。
论文主要内容如下:
一、综述了光谱分析法中分光光度法、荧光光度法、共振散射光度法在蛋白质定量分析中的研究现状。
二、研究了二甲酚橙与Cu(II)配合物与牛血清白蛋白的共振散射光谱的特征,考察了体系主要影响因素;然后建立了牛血清白蛋白(BSA)的测定新方法,并将方法用于牛血清样品中蛋白质的测定,结果与文献方法一致。
三、研究了二苯胺磺酸钠探针与牛血清白蛋白的共振散射光谱的特征,考察了体系主要影响因素;然后建立了牛血清白蛋白(BSA)的测定新方法,并将方法用于牛血清样品中蛋白质的测定,结果与文献方法一致。
四、应用紫外可见光谱、荧光光谱法研究了萘酚绿B与牛血清白蛋(BSA)之间的相互作用。实验表明:在水溶液体系中,萘酚绿B对血清白蛋白的荧光有较强的猝灭作用,其荧光猝灭主要为静态猝灭。进一步从荧光猝灭数据求得不同温度下染料与BSA的结合常数K,发现随反应温度上升K值下降。由反应焓变、熵变,确定萘酚绿B与血清白蛋白的结合疏水力作用为主。利用同步荧光光谱和UV/VIS吸收光谱,分析了NGB的加入对BSA的构象的影响。
五、应用紫外可见光谱研究了萘酚绿B与牛血清白蛋(BSA)之间的相互作用。实验表明:在高温的酸性溶液中,萘酚绿B发生褪色反应;牛血清白蛋的加入对萘酚绿B的褪色反应有阻抑作用,由此进一步确定萘酚绿B与牛血清白蛋在水溶液中可以发生结合,形成稳定的复合物。
In recent years, along with our country animal husbandry's unceasing development, the poultry variety and quantity had great scope increase. Corresponding, our country's livestock and poultry diseases and the type of frequency also greatly to increase, significantly, this has created the huge economic loss for our country's poultry industry. Therefore, the rapid diagnosis of animal diseases is very important research subject.
The serum albumin is the content richest protein in the blood, which in animal body fluids in the content of a certain extent, can be used as the basis for the diagnosis of the disease. Using the new research discovery's spectrum probe examination protein's content, and applied animal protein in the body fluids or the determination of biological products in the determination of protein, is a very meaningful work..
This article focuses on small organic molecules diphenylamine sulfonic acid sodium, the XO and naphthol Green B and protein interactions, applied research and animal body fluids in the determination of protein.Its paper primary coverage is as follows:
The results and methods for study of reaction mechanism between small organic molecules with protein were reviewed with 84 references.
The xylenol orange and the Cu(II) complex probe to determine the protein content have been studied. The Resonance light scattering spectrum of the characteristics of the XO and Cu (II) complex with bovine serum albumin have been studied. This method was applied to the determination of bovine urine and compared to Bradford method with satisfactory results.
The diphenylamine sulfonic acid sodium probe to determine the protein content have been studied by resonance scattering spectrum (RLS). The diphenylamine sulfonic acid sodium with bovine serum albumin resonance scattering spectrum of the characteristics have been studied. This method was applied to the determination of bovine urine and compared to Bradford method with satisfactory results.
The binding characteristics of Naphthol green B(NGB) with bovine serum albumin(BSA) have been studied by spectroscopy method in aqueous solution. It is proved that static quenching exits between NGB-BSA super-molecular complex. The formation constant KA and the thermodynamic functions (such as△G、△H and△S) for the reaction have all been measured; temperatures on the formation constant of Naphthol green B with BSA was also studied; According to the thermodynamic parameters, the hydrogen bonding and van’der Waals forces played major role in the interaction. The effect of Naphthol green B on the conformation of BSA has also been analyzed using synchronous fluorescence spectroscopy; The binding distance between Naphthol green B and BSA and the transfer efficiency have been obtained based on the mechanism of Forster energy transfer.
Studies discovered: In the high temperature acid solution, naphthol green B has the discoloration response; BSA's accession to the naphthol Green B inhibition reaction to the fading effect, which further define naphthol Green B and bovine serum albumin can bind.
本文重点开展了有机小分子二苯胺磺酸钠,二甲酚橙及萘酚绿B等光谱探针与蛋白质的相互作用研究,并将研究应用于动物体液中蛋白质含量的测定。
论文主要内容如下:
一、综述了光谱分析法中分光光度法、荧光光度法、共振散射光度法在蛋白质定量分析中的研究现状。
二、研究了二甲酚橙与Cu(II)配合物与牛血清白蛋白的共振散射光谱的特征,考察了体系主要影响因素;然后建立了牛血清白蛋白(BSA)的测定新方法,并将方法用于牛血清样品中蛋白质的测定,结果与文献方法一致。
三、研究了二苯胺磺酸钠探针与牛血清白蛋白的共振散射光谱的特征,考察了体系主要影响因素;然后建立了牛血清白蛋白(BSA)的测定新方法,并将方法用于牛血清样品中蛋白质的测定,结果与文献方法一致。
四、应用紫外可见光谱、荧光光谱法研究了萘酚绿B与牛血清白蛋(BSA)之间的相互作用。实验表明:在水溶液体系中,萘酚绿B对血清白蛋白的荧光有较强的猝灭作用,其荧光猝灭主要为静态猝灭。进一步从荧光猝灭数据求得不同温度下染料与BSA的结合常数K,发现随反应温度上升K值下降。由反应焓变、熵变,确定萘酚绿B与血清白蛋白的结合疏水力作用为主。利用同步荧光光谱和UV/VIS吸收光谱,分析了NGB的加入对BSA的构象的影响。
五、应用紫外可见光谱研究了萘酚绿B与牛血清白蛋(BSA)之间的相互作用。实验表明:在高温的酸性溶液中,萘酚绿B发生褪色反应;牛血清白蛋的加入对萘酚绿B的褪色反应有阻抑作用,由此进一步确定萘酚绿B与牛血清白蛋在水溶液中可以发生结合,形成稳定的复合物。
In recent years, along with our country animal husbandry's unceasing development, the poultry variety and quantity had great scope increase. Corresponding, our country's livestock and poultry diseases and the type of frequency also greatly to increase, significantly, this has created the huge economic loss for our country's poultry industry. Therefore, the rapid diagnosis of animal diseases is very important research subject.
The serum albumin is the content richest protein in the blood, which in animal body fluids in the content of a certain extent, can be used as the basis for the diagnosis of the disease. Using the new research discovery's spectrum probe examination protein's content, and applied animal protein in the body fluids or the determination of biological products in the determination of protein, is a very meaningful work..
This article focuses on small organic molecules diphenylamine sulfonic acid sodium, the XO and naphthol Green B and protein interactions, applied research and animal body fluids in the determination of protein.Its paper primary coverage is as follows:
The results and methods for study of reaction mechanism between small organic molecules with protein were reviewed with 84 references.
The xylenol orange and the Cu(II) complex probe to determine the protein content have been studied. The Resonance light scattering spectrum of the characteristics of the XO and Cu (II) complex with bovine serum albumin have been studied. This method was applied to the determination of bovine urine and compared to Bradford method with satisfactory results.
The diphenylamine sulfonic acid sodium probe to determine the protein content have been studied by resonance scattering spectrum (RLS). The diphenylamine sulfonic acid sodium with bovine serum albumin resonance scattering spectrum of the characteristics have been studied. This method was applied to the determination of bovine urine and compared to Bradford method with satisfactory results.
The binding characteristics of Naphthol green B(NGB) with bovine serum albumin(BSA) have been studied by spectroscopy method in aqueous solution. It is proved that static quenching exits between NGB-BSA super-molecular complex. The formation constant KA and the thermodynamic functions (such as△G、△H and△S) for the reaction have all been measured; temperatures on the formation constant of Naphthol green B with BSA was also studied; According to the thermodynamic parameters, the hydrogen bonding and van’der Waals forces played major role in the interaction. The effect of Naphthol green B on the conformation of BSA has also been analyzed using synchronous fluorescence spectroscopy; The binding distance between Naphthol green B and BSA and the transfer efficiency have been obtained based on the mechanism of Forster energy transfer.
Studies discovered: In the high temperature acid solution, naphthol green B has the discoloration response; BSA's accession to the naphthol Green B inhibition reaction to the fading effect, which further define naphthol Green B and bovine serum albumin can bind.
引文
1 L Trynda-Lemiesz, H Kozlowski, B K Keppler. J. Inorg. Biochem., 1999, 77: 141—146.
2 S S Qu, Y Liu, T Z Wang et al. Chemosphere, 2002, 46: 1211—1214.
3 C Q Jiang, M X Gao, X Z Meng. Spectrochim. Acta, Part A, 2003, 59: 1605—1610.
4 J Q Liu, J N Tian, X Tian et al. Bioorgan. Med. Chem., 2004, 12: 469—474.
5 厉朝龙,陈枢青,刘子贻.生物化学与分子生物学实验技术[M].杭州:浙江大学出版社,1999.
6 周雅琳,阚健全,陈宗道.高效液相色谱法在蛋白质分析中的应用[J].粮食与油脂,2001,11:37- 38.
7 张宁,唐轶,郝冬梅,等.应用毛细管区带电泳测定人血清蛋白[J].色谱,1999,17(6):593-595.
8 Lowry O H, Rosebrough N J, Farr A L. Protein Measurement with the Folin-Phenol Reagent[J] J Biol. Chern.,1951,193(2):265-275.
9 Smith P K, Krohn R J, Hermanson O T. Measurement of Protein Using Bicinchoninic Acid[J]. Anal. Biochem,1985.150(1):76-85.
10 Krystal G, Macdonald C.Munt B. A Method for Quantitating Nanogram Amounts of Soluble Protein Using the Principle of Silver Binding[J ]. Anal. Biochem. ,1985 ,148 ( 2 ) :451-460.
11 夏传俊,张莉,张锐,赵广超.纳米银胶与蛋白质的相互作用及应用[J].安徽师范大学学报(自然科学版)2003,26(2):146-148
12 Stoscheck C M. Protein Assay Sensitive at Nanogram Levels[J].Anal.Biochem.,1987.160 (1):301-305.
13 Dourmas B T,Watson W.Biggs H G. Albumin Standards and the Measurement of Serum Albumin with Bromcresol Greem[J].Clin. Chem. Acta ,1971,31(1):87-96.
14 Bradford M M.A Rapid and Sensitive Method for the Quantitation of Microgram Quantities of Protein Utilizing the Principle of Protein-Dye Binding[J]. Anal. Biochern.,1976,72(2):248-254.
15 王中良.溴甲酚紫测定血清白蛋白方法介绍[J].中华医学检验杂志,1983,6(1):62.
16 Schosinsky K H, Vargas M.Eo9ulevl A L,Chavarria M A. Simple Spectrophotometric Determi- nation of Urinary Albumin by Dye-Binding with Use of Bromphenol Blue[J].CIin. Chenr. ,1987, 33(2):223-226.
17 魏永巨,李克安,童沈阳.埃铬青 R 与牛血清白蛋白的结合反应[J].分析化学,1996,24(10): 1175-1177.
18 胡秋娈,赵凤林,李克安.分光光度法研究血清白蛋白与钍试剂 I 的作用[J].分析试验室,2000,19 (1):48-50
19 胡秋娈,李娜,李克安,等.用硝基磺酚 S 分光光度法测定蛋白质[J]分析化学,1999,27(2):166 -169.
20 胡秋娈,赵凤林,李克安.以偶氮胂 K 光度法测定蛋白质[J].分析测试学报,2000.19(1):45-47.
21 李娜,李克安,童沈阳.偶氮类染料与蛋白质作用的分光光度研究[J].分析科学学报, 1997,13(4):265-270.
22 张正奇 , 陈永湘 , 张郁葱 . 用偶氮肿 M 分光光度法测定蛋白质 [J]. 分析科学学报,2001.17(3):214-216
23 胡秋娈,赵凤林,李克安.铍试剂 I 分光光度法测定蛋白质的研究[J].分析科学学报, 1999.15(6):446-448.
24 胡秋娈.偶氮硝羧与血清蛋白质反应的分光光度研究[J].化学世界,2000,41(3):146-150.
25 胡庆红,刘绍璞,罗红群.变色酸 2B 分光光度法测定蛋白质[J].西南师范大学学报, 2001.26(5):594-597
26 鲁国庆,罗登柏,蓝金责.刚果红分光光度法测定血清蛋白质[J].分析化学,2002,30(11):1399.
27 刘希东,蓝觉明.伊红 Y 分光光度法测定血清白蛋白[J].分析科学学报,2002,18(4):324-326.
28 刘希东.曙红 B-蛋白质一聚乙烯醇体系显色反应及其分析应用[J].分析测试学报, 2002,21(6):84-86.
29 胡秋娈,李娜,赵凤林,李克安.硝基磺酚 C 光度法测定蛋白质的研究[J].高等学校化学学报, 1999,20 (2):221-223.
30 曹秋娥,李祖碧,王加林,李崇宁.偶氮胭脂红B与血清蛋白质相互作用的光度法研究及其分析应用[J].分析化学,2002,30
31 Fujita Y.Mori 1,Kitano S. Color Reaction Between Pyrogallol Red-Molybdenum(”)Complex and Protein[J}. B:mseki Kagaku,1983.32(3):379-386.
32 Fujita Y.Mori I,Kitano S. Color Reaction Between Pyrogallol Red-Molybdenum(VI)Complex and Protein[J]. Bunseki Kagaka,1983,32(3):379-386.
33 Guo Z X, Shen H X. Determination of Protein Based on Absorbance Decrease of Molybdenum (VI)Complex with 2,6,7-Trihydroxy-9-(Chlorophenyl)-3H-Xanthen-3-One[J]. Analyst, 1999, 124 (9): 1093-1098.
34 俞英,黄发德,高庆.牛血清白蛋白与偶氮胂Ⅲ一镱(Ⅲ)结合反应及其应用[J].分析化学,2001, 299(10):1205-1208
35 Hu Q L,Zhao B T. The Study on the Determination of Protein Based on the Interaction Between Protein and Complex of Cu( I)-Arsenazo K[J].Chemistrymag. ,2001,36(1):23-29.
36 胡秋娈,赵凤林,李克安.Cu(II)一氯酚磺 S 配合物与蛋白质反应及分析应用的研究[J].北京大学学报(自然科学版),1999,35(6):734-737.
37 沈含熙,刘六站,刘东国.相(IV)一水杨基荧光酮配合物探针定量测定尿蛋白[J].光谱学与光谱分析.1999,19(3):444-446.
38 汤桂娜,魏巍,王保宁.4,5 一二溴苯基荧光酮一钛(IV )-Tween 80 分光光度法测定蛋白质[J].分析化学,1993,21(7):831-833.
39 肖国荣,黄选忠.蛋白质-Mo(IV)一邻苯二酚紫-OP 显色体系的研究及应用[J].分析试脸室,2001,20(3) :63-65.
40 陈鸿琪.二溴羟基苯基荧光酮-Mo(IV)一蛋白质光谱探针研究[J].西北师范大学学报(自然科学版),2000 , 63 (3 ) : 53-57.
41 Guo Z X, Hao Y M, Cong X. Application of the Dibromohydroxy Phenyl Fluorone Molybdenum) Complex to the Sensitive Spectrophotometric Determination of Protein[J]. Anal: Chim. Acta. 2000; 403 (2):225-233.
42 Fujita Y, Mori I, Ikuta K. Highly Sensitive Spectrophotometric Determination of Human Albumin with 3',4',5',6'-Tetrachlorogalleizi(Molybdenum(IV)Complex[J].Ch.em.Pharrn. Bul1, 1989,37(9): 2452-2455.
43 Mori I,Taguchi K,Fujita Y. Sensitive Spectrophotometric Determination of Human Serum Album in (HSA) with [2-(5-Bromo-2-Pyridylazo)-5-(IV-Phenyl-N-Sulfopropyl-Amino) Phenol] (S-Br-PAPS) -Cobalt(I) Complex [J]. Anal. Lets.,1995,28(2):225-237.
44 卢玉业,罗宗铭.锌试剂配合物于蛋白质的显色反应及其应用研究[J].理化检验(化学分册),2001,37(7),306-308.
45 Fujita Y.Mori I,Matsuo T. Spectrophotometric Determination of Protein with Pyrocatechol Violet Tin(IV )Complex()]. B:rnseki Kugaku,1995,44(10):733-738.
46 Saito Y, Kanetsuna A, Okuda H.A Sensitive Spectrophotometric Method for Determination of Human Serum Albumin with Chrome-Azurol S Aluminium Chelate(J]. Chem. Phurrn..Bu11,1986,34(2): 746-750.
47 郭德济.光化学分析法[M].重庆:重庆大学出版社.
48 Wei A P, Blumenthal D K, Herron J N. Anal Chem[J], 1994,66:1500.
49 马贵武,杨频,刘文静,等.山西大学学报[J], 1992,15(2):163~168.
50 李晓晶,张善荣,张树功,等.高等学校化学学报[J],1999,20(1):127~131.
51 王守业,徐小龙,刘清亮,等.荧光光谱在蛋白质分子构象研究中的应用[J].化学进展,2001, 13(4) :257-260.
52 Wang L Y, Kan X W, Zhang M C, et al. Analyst[J], 2002,127(11):1531~1534.
53 Wang L, Wang L Y, Zhu C Q, et al. Analytical Letters[J], 2004,37(2):213~223.
54 宋功武,方光荣,李瑛.曙红 Y 与牛血清白蛋白作用的荧光光谱[J].分析化学,2000,28 (5):659.
55 陈鸿琪,夏闽.荧光染料吖啶红测定蛋白质的生物探针[J].理化检脸(化学分册).2001, 37 (2):53-55.
56 覃文武,包永军,等.茜素红 S 荧光熄灭法测定蛋白质[J].分析化学,2000.28(4):526.
57 陈小萍,郑玉聪,金玉玲.荧光分光光度法测定保健品中的微量蛋白[J].卫生研究,1996,25(1): 62-63.
58 董裳伦,朱岩,杨景和.稀土离子荧光探针对上腺素的测定[J].分析化学,2000,28(3): 293-295.
59 Qin W W.Bao Y J,Gong C Q. Fluoresce Quenching Method for the Determination of Protein by Alizarin[J].Journal of Lunzhou University, 2000 ,36 (3) :105-110.
60 刘文明,宋功武,方光荣.罗丹明 6G 生物探针测定蛋白质[J].湖北大学学报(自然科学版), 2001,23(4):363-365.
61 Zhang X W , Zhao F L, Li K A. Flurometric Method for the Micro determination of Protein Using Indigo Carmine[J]. Microchemical.Journal,2001, 68(1):53-59.
62 吴霖,俞英,等.碱性品红与牛血清白蛋白的相互作用及其应用[J]华南师范大学学报(自然科学版)2004,2:95-99
63 Ma C Q.Li K A,Tong S Y. Determination of Proteins by Fluorescence Quenching of Erythrosine B [J].Anal.Chim. Acta.1996,333(1):83-85.
64 Cheng Zhi Huang,Xiao Bing Pang,Yuan Fang Li,Yi Juan Long.A resonance light scattering ratiometry appied for binding study of organic small molecules with biopolymer.Talanta 69(2006) 180-186
65 范丽,刘绍璞,龙秀芬.某些变色酸偶氮染料一蛋白质体系的共振瑞利散射及其分析应用仁月.分析化学,2002,30(1):81-85.
66 杨睿,刘绍璞,龙秀芬.曲本利蓝一蛋白质体系的共振瑞利散射及其分析应用〔月.西南师范大学学报,1999,24(2)=179-182.
67 (ejin W W ,13a0 Y } , Gong C(,1. h'luoresce (duenching Method for the 17etermination of Protein by Alizarin}l}.,/orsrna! o} Lanzhou university, 2000 , 36 ( 3 ) :105-110.
68 王照丽,李树伟,谭舒敏.变色酸 2R 共振光散射光谱法测定蛋白质[JJ.四川师范大学学报(自然科学版),2002,25(2):155-159.
69 Hu X L,Feng P. Interaction of Pyrogallot Red with Proteins and the Determination of Proteins by Resonance Light-Scattering[J].Journal of Southwest China Normal University,1998,23(5):561 -566.
70 王晓霞,沈含熙,郝永梅.觅菜红一蛋白质体系的共振散射光谱研究及分析应用[月.分析化学,2000,28(11):1388-1390.
71 冯宁川,龚国权.钍试剂 I 与蛋白质作用的共振光散射特征及微量蛋白质的光散射测定[J].分析试验室,2002,21(1):58-60
72 Huang C Z,Li Y-F,.Feng P. Determination of Proteins by Their Enhanced of Resonance Light Scattering by Fuchsine Acid [J].Frerenius .l. Anal. Chcnr.2001,371 (9): 1034-1036.
73 李树伟,李娜,赵凤林.用铀试剂 I 共振散射法测定蛋白质的研究[J].光谱学与光谱分析, 2002,22(4):619-622.
74 李树伟,李娜,赵凤林.用铬黑 T 作为共振散射光谱探针测定蛋白质[J].分析化学, 2002.30(6):732-735.
75 冯宁川,龚国权.亮黄一曲通 X-10'0 体系共振瑞利散射发测定蛋白质[J].分析化学,2002,30 (4);425-427.
76 蒋治良,邹节明,王利生.蛋白质与三氯乙酸相互作用的共振散射光谱研究及分析应用[J[.分析化学,2003, 31(1):70-73.
77 Chen L H,Zhao F L.Li K A. Microdetermination of Protein by Enhanced Rayleigh Light Scattering Spectroscopy with Thorin [J].Chinese. Journal of Chemistry.2002,20 (4):3G8-373.
78 翟海云,高建华,李华答.四磺基铈酞菁共振散射法测定人血清白蛋白[J].分析化学, 2002.30(12):1528-1530.
79 Zhao Y K,Chang W B,Ci Y X. Rapid and Sensitive Determination of Protein by Light-Scattering Technique with Eriochrome Blue Black R[J].Talanta, 2003,59 (3):477-484.
80 Suling Feng,Zihong Pan,Jing Fan. Determination of proteins at nanogram levels with Bordea- ux red based on the enhancement of resonance light scattering. [J].Spectrochimica Acta,part A 20036,64:574-579.
81 YanhuaChen,YuanTian.Determination of serum albumin in the presence ofPoly (diallyldime- thylammonium chloride) by resonance light scattering technique Spectrochimica Acta PartA xxx(2006)xxx-xxx
82 Le-YuWang,LunWang,etc.Determination of γ-globulin at nanogram levels by its enhance- ment effect on the resonance light scattering of functionalized HgS nanoparticles Talanta 62 (2004) 237-240
83 YanhuaChen,Dejiang Gao,etc.Resonance light scattering technique for the determination of proteins with polymethacrylic acid(PMAA).Spectrochimica Acta PartA xxx(2006)xxx-xxx
84 Wei Qin,Li Yan,etc.Rapid determination of ultra trace amounts of residual protein in penicillin based on its enhancement effects of Rayleigh light scattering on trimethoxyfluorone (TM-PF) -Mo(Ⅵ) comlex[J]Pharmaceutical and Biomedical Analysis.2005,38: 232-238
1 R.F.Pastanck,C.Bustamane,P.J.Collings,etal.Resonance light scattering:A new technique for studying chromophore aggregation[J].J.Am.Chem.Soc.1993,115:5393~5399.
2 P.J.Collings,E.J.Gibbs,T.E.Starr,etal.Resonance light scattering and its application in determining the size,shape,and aggregation number for supramolecular assemblies of chromospheres [J]. J.Phys.Chem.B,1999,103(10):8474-8481.
3 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(8): 1059-1062.
4 Li Y F, Huang C Z, Huang X H , etal. Determination of Proteins Based on Their ResonanceLight Scattering Enhancement Effect on AlcianBlue 8GX[J ]. Anal Sci ,2000 ,16:1249~1254.
5 Huang C Z, Li Y F, Feng P. Determination of Proteins withα,β,γ,δ-Tetrakis (4-Sulfophenyl) Porphine by Measuring the Enhanced Resonance Light Scattering at the Air/Liquid Interface[J ]. Anal Chem Acta2001 ,443:73~80.
6 陈小兰,李东辉,朱庆枝.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.
7 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.
8 吴会灵,李文友,何锡文.依波西隆蓝与蛋白质作用的共振光散射光谱及其分析应用[J ].分析化学 , 2003 , 31 (8 )981~991.
9 李 芳,刘绍璞,龙秀芬,等.某些变色酸双偶氮染料蛋白质体系的共振瑞利散射及其分析应用[J ].分析化学 , 2002 ,30 (1) :81~85.
10 Ma C Q,Li K A,Tong S Y.Anal Lett.1997,30(4):739.
11 Wei Y J,Li K A,Tong S Y.Talanta,1996,43(1):1.
12 黄承志,李原芳,黄新华.物理化学学报,1998,14(8):731
13 李树伟,李娜,赵凤林.分析化学, 2002, 30(6):732
14 梁爱惠,邹节明,蒋治良,等.磷钼杂多酸与蛋白质相互作用的共振散射光谱研究[J ].应用化学,2002 ,19(8)768~771.
1. 李原芳. 生物染色素与生物大分子受体体外作用的光散射表征及其分析应用.硕士学位论文.西南师范大学 2002
2 蒋治良,陈 飒,刘绍镤.光谱学与光谱分析,2002,22(4):615~618
3 H.Liang,X.C.Sheng,Z.L.Jiang,The photochemical study of HAS and BSA with resonance scattering and fluorescence spectroscopy[J].Chinese Chem.Lett.2002,11:251-254.
1 Arzum Erdem. Mehmet Gzsoz. Interaction of the anticancer drug epirubicin with DNA[J]. Analytica Chimica Acta, 2001(437):107-114.
2 Gelamo E L.Silva C H T P,Imasato H. etal, Interaction of BSA and HSA with ionic surfactant.: spectroscopy and modeling[J].Biochimica et Biophysica Acta,2002. 1594:84-99.
3 彭红军,周光明,等.萘酚绿 B 与 DNA 相互作用的 FT-SERS 研究[J].西南师大学报 2003(2)
4 傅英姿,周路,杨华敏,等.萘酚绿B与DNA相互作用的电化学研究[J] 广西师范大学学报(自科学版)2003(6)
5 S.M.T.Shaik, J.Seetharamappa,etc.Spectroscopic intestigations on the mechanism of bioactive dye with bovine serum albumin. [J]Dyes and Pigments 74(2007):665-671
6 Yan-Qing Wang, Hong-Mei Zhang ,etc. Interaction of flavonoid hesperidin with bovine serum albumin: A fluorescence quenching study [J].Luminescence 126(2007)211-218
7. 梅 平,颜承农.曙红 Y 与牛血清白蛋白结合反应特征研究[J].光谱学与光谱分析2006,26,(12):2306 -2310
8 杨曼曼,席小莉,杨频.变温下荧光猝灭和加强理论公式和理性的比较[J].化学学报2006,64(14) 1437-1445
9 俞英,周秋云.马兜铃酸 A 与牛血清白蛋白相互作用的研究[J].华南师范大学学报(自然科学版) 2006(11):72-77
10 C.Q.Jiang, M.X.Gao, J.X.He, Anal.Chim. Acta 452 (2002)185~189
11. J.Q.Liu, J.N.Tian, J.Y.Zhang, Z.D.Hu, X.G.Chen, Anal. Bioanal. Chem. 376(2003)864.
12 Xi-Zeng F, Zhang L, Lin-JinY, Chen W, Chun-LiB. Talanta 1998;47:1223.
13 D.P.Ross,S.Subramanian,Biochemie20(1981)3096~3102
14 T.Forster,O.Sinanoglu(Eds.), Modern Quantum Chemistry, 3, Academic Press, NewYork, 1996, p93
15 N.Seedher, B.Singh, P.Singh, IndianJ. Pharm.Sci.51 (1999)143~148
16 L.Cyril, J.K.Earl, W.M.Sperry, Biochemist’s Handbook, Eand F,N.Spon London,1961,p84.
17 B.Valeur,J.C.Brochon, New Trends in Fluorescence Spectroscopy, 6thed, SpringerPress, Berlin, 1999,p25.
18 J.H.Yan, Y.Liu,B. W.Jia, H.X.Xiao, S.Q.Song, J.Pharm .Biomed. Anal.36(2004)915~919
19 W.C.Abert, W.M. Gregory,G.S. Allan, Anal. Biochem. 213(1993)407.
20 B.Klajnert, M.Bryszewska, Bioelectrochemistry55 (2002) 33.
1 Bradford M M. A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding[J]. Anal biochem. 1976, 72; 248.
2 胡秋娈,李娜,赵凤林,等.硝基磺酚 C 光度法测定蛋白质的研究[J].高等学校化学学报, 1999, 20(2): 221-223.
3 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): 232-241.
4 胡秋娈,曹向阳,刘尚才等.血清蛋白质与绿磺酚 K 反应及其分析应用的研究[J].分析测试学报,2004,23(3):83.
5 陈莲惠,刘绍璞.水溶性苯胺蓝光度法测定蛋白质[J].分析科学学报,2004,20(3):266.
6 胡庆红,刘绍璞,范莉.蛋白质对铬蓝 SE 的褪色及其分析应用[J].分析化学,2002,30(1):42~45
7 吴湘江,刘狄,等.催化溴酸钾氧化萘酚绿 B 褪色紫外光度法测定亚硝酸根[J].理化检验一化学分册 2006,42(1):58-59
8 黄典文,唐锦标.萘酚绿 B 显色光度法测定盐中微量碘冶金分析[J].2005,25(5):78-80
9 陈晓红,陈雪梅,等.阻抑萘酚绿褪色和生色反应双波长动力学光度法测定碘的研究[J].理化检验一化学分册 2002,38(9):466-477
10 高楼军,柴红梅,等.萘酚绿B催化动力学光度法测定痕量钒.[J].延安大学学报(自然科学版) 2004,23(3):54-55
11 黄承志,李原芳,黄新华,等.阳离子表面活性剂存在下卟啉聚集的光谱研究.[J].物理化学学报 1998 14 (08):731-736
2 S S Qu, Y Liu, T Z Wang et al. Chemosphere, 2002, 46: 1211—1214.
3 C Q Jiang, M X Gao, X Z Meng. Spectrochim. Acta, Part A, 2003, 59: 1605—1610.
4 J Q Liu, J N Tian, X Tian et al. Bioorgan. Med. Chem., 2004, 12: 469—474.
5 厉朝龙,陈枢青,刘子贻.生物化学与分子生物学实验技术[M].杭州:浙江大学出版社,1999.
6 周雅琳,阚健全,陈宗道.高效液相色谱法在蛋白质分析中的应用[J].粮食与油脂,2001,11:37- 38.
7 张宁,唐轶,郝冬梅,等.应用毛细管区带电泳测定人血清蛋白[J].色谱,1999,17(6):593-595.
8 Lowry O H, Rosebrough N J, Farr A L. Protein Measurement with the Folin-Phenol Reagent[J] J Biol. Chern.,1951,193(2):265-275.
9 Smith P K, Krohn R J, Hermanson O T. Measurement of Protein Using Bicinchoninic Acid[J]. Anal. Biochem,1985.150(1):76-85.
10 Krystal G, Macdonald C.Munt B. A Method for Quantitating Nanogram Amounts of Soluble Protein Using the Principle of Silver Binding[J ]. Anal. Biochem. ,1985 ,148 ( 2 ) :451-460.
11 夏传俊,张莉,张锐,赵广超.纳米银胶与蛋白质的相互作用及应用[J].安徽师范大学学报(自然科学版)2003,26(2):146-148
12 Stoscheck C M. Protein Assay Sensitive at Nanogram Levels[J].Anal.Biochem.,1987.160 (1):301-305.
13 Dourmas B T,Watson W.Biggs H G. Albumin Standards and the Measurement of Serum Albumin with Bromcresol Greem[J].Clin. Chem. Acta ,1971,31(1):87-96.
14 Bradford M M.A Rapid and Sensitive Method for the Quantitation of Microgram Quantities of Protein Utilizing the Principle of Protein-Dye Binding[J]. Anal. Biochern.,1976,72(2):248-254.
15 王中良.溴甲酚紫测定血清白蛋白方法介绍[J].中华医学检验杂志,1983,6(1):62.
16 Schosinsky K H, Vargas M.Eo9ulevl A L,Chavarria M A. Simple Spectrophotometric Determi- nation of Urinary Albumin by Dye-Binding with Use of Bromphenol Blue[J].CIin. Chenr. ,1987, 33(2):223-226.
17 魏永巨,李克安,童沈阳.埃铬青 R 与牛血清白蛋白的结合反应[J].分析化学,1996,24(10): 1175-1177.
18 胡秋娈,赵凤林,李克安.分光光度法研究血清白蛋白与钍试剂 I 的作用[J].分析试验室,2000,19 (1):48-50
19 胡秋娈,李娜,李克安,等.用硝基磺酚 S 分光光度法测定蛋白质[J]分析化学,1999,27(2):166 -169.
20 胡秋娈,赵凤林,李克安.以偶氮胂 K 光度法测定蛋白质[J].分析测试学报,2000.19(1):45-47.
21 李娜,李克安,童沈阳.偶氮类染料与蛋白质作用的分光光度研究[J].分析科学学报, 1997,13(4):265-270.
22 张正奇 , 陈永湘 , 张郁葱 . 用偶氮肿 M 分光光度法测定蛋白质 [J]. 分析科学学报,2001.17(3):214-216
23 胡秋娈,赵凤林,李克安.铍试剂 I 分光光度法测定蛋白质的研究[J].分析科学学报, 1999.15(6):446-448.
24 胡秋娈.偶氮硝羧与血清蛋白质反应的分光光度研究[J].化学世界,2000,41(3):146-150.
25 胡庆红,刘绍璞,罗红群.变色酸 2B 分光光度法测定蛋白质[J].西南师范大学学报, 2001.26(5):594-597
26 鲁国庆,罗登柏,蓝金责.刚果红分光光度法测定血清蛋白质[J].分析化学,2002,30(11):1399.
27 刘希东,蓝觉明.伊红 Y 分光光度法测定血清白蛋白[J].分析科学学报,2002,18(4):324-326.
28 刘希东.曙红 B-蛋白质一聚乙烯醇体系显色反应及其分析应用[J].分析测试学报, 2002,21(6):84-86.
29 胡秋娈,李娜,赵凤林,李克安.硝基磺酚 C 光度法测定蛋白质的研究[J].高等学校化学学报, 1999,20 (2):221-223.
30 曹秋娥,李祖碧,王加林,李崇宁.偶氮胭脂红B与血清蛋白质相互作用的光度法研究及其分析应用[J].分析化学,2002,30
31 Fujita Y.Mori 1,Kitano S. Color Reaction Between Pyrogallol Red-Molybdenum(”)Complex and Protein[J}. B:mseki Kagaku,1983.32(3):379-386.
32 Fujita Y.Mori I,Kitano S. Color Reaction Between Pyrogallol Red-Molybdenum(VI)Complex and Protein[J]. Bunseki Kagaka,1983,32(3):379-386.
33 Guo Z X, Shen H X. Determination of Protein Based on Absorbance Decrease of Molybdenum (VI)Complex with 2,6,7-Trihydroxy-9-(Chlorophenyl)-3H-Xanthen-3-One[J]. Analyst, 1999, 124 (9): 1093-1098.
34 俞英,黄发德,高庆.牛血清白蛋白与偶氮胂Ⅲ一镱(Ⅲ)结合反应及其应用[J].分析化学,2001, 299(10):1205-1208
35 Hu Q L,Zhao B T. The Study on the Determination of Protein Based on the Interaction Between Protein and Complex of Cu( I)-Arsenazo K[J].Chemistrymag. ,2001,36(1):23-29.
36 胡秋娈,赵凤林,李克安.Cu(II)一氯酚磺 S 配合物与蛋白质反应及分析应用的研究[J].北京大学学报(自然科学版),1999,35(6):734-737.
37 沈含熙,刘六站,刘东国.相(IV)一水杨基荧光酮配合物探针定量测定尿蛋白[J].光谱学与光谱分析.1999,19(3):444-446.
38 汤桂娜,魏巍,王保宁.4,5 一二溴苯基荧光酮一钛(IV )-Tween 80 分光光度法测定蛋白质[J].分析化学,1993,21(7):831-833.
39 肖国荣,黄选忠.蛋白质-Mo(IV)一邻苯二酚紫-OP 显色体系的研究及应用[J].分析试脸室,2001,20(3) :63-65.
40 陈鸿琪.二溴羟基苯基荧光酮-Mo(IV)一蛋白质光谱探针研究[J].西北师范大学学报(自然科学版),2000 , 63 (3 ) : 53-57.
41 Guo Z X, Hao Y M, Cong X. Application of the Dibromohydroxy Phenyl Fluorone Molybdenum) Complex to the Sensitive Spectrophotometric Determination of Protein[J]. Anal: Chim. Acta. 2000; 403 (2):225-233.
42 Fujita Y, Mori I, Ikuta K. Highly Sensitive Spectrophotometric Determination of Human Albumin with 3',4',5',6'-Tetrachlorogalleizi(Molybdenum(IV)Complex[J].Ch.em.Pharrn. Bul1, 1989,37(9): 2452-2455.
43 Mori I,Taguchi K,Fujita Y. Sensitive Spectrophotometric Determination of Human Serum Album in (HSA) with [2-(5-Bromo-2-Pyridylazo)-5-(IV-Phenyl-N-Sulfopropyl-Amino) Phenol] (S-Br-PAPS) -Cobalt(I) Complex [J]. Anal. Lets.,1995,28(2):225-237.
44 卢玉业,罗宗铭.锌试剂配合物于蛋白质的显色反应及其应用研究[J].理化检验(化学分册),2001,37(7),306-308.
45 Fujita Y.Mori I,Matsuo T. Spectrophotometric Determination of Protein with Pyrocatechol Violet Tin(IV )Complex()]. B:rnseki Kugaku,1995,44(10):733-738.
46 Saito Y, Kanetsuna A, Okuda H.A Sensitive Spectrophotometric Method for Determination of Human Serum Albumin with Chrome-Azurol S Aluminium Chelate(J]. Chem. Phurrn..Bu11,1986,34(2): 746-750.
47 郭德济.光化学分析法[M].重庆:重庆大学出版社.
48 Wei A P, Blumenthal D K, Herron J N. Anal Chem[J], 1994,66:1500.
49 马贵武,杨频,刘文静,等.山西大学学报[J], 1992,15(2):163~168.
50 李晓晶,张善荣,张树功,等.高等学校化学学报[J],1999,20(1):127~131.
51 王守业,徐小龙,刘清亮,等.荧光光谱在蛋白质分子构象研究中的应用[J].化学进展,2001, 13(4) :257-260.
52 Wang L Y, Kan X W, Zhang M C, et al. Analyst[J], 2002,127(11):1531~1534.
53 Wang L, Wang L Y, Zhu C Q, et al. Analytical Letters[J], 2004,37(2):213~223.
54 宋功武,方光荣,李瑛.曙红 Y 与牛血清白蛋白作用的荧光光谱[J].分析化学,2000,28 (5):659.
55 陈鸿琪,夏闽.荧光染料吖啶红测定蛋白质的生物探针[J].理化检脸(化学分册).2001, 37 (2):53-55.
56 覃文武,包永军,等.茜素红 S 荧光熄灭法测定蛋白质[J].分析化学,2000.28(4):526.
57 陈小萍,郑玉聪,金玉玲.荧光分光光度法测定保健品中的微量蛋白[J].卫生研究,1996,25(1): 62-63.
58 董裳伦,朱岩,杨景和.稀土离子荧光探针对上腺素的测定[J].分析化学,2000,28(3): 293-295.
59 Qin W W.Bao Y J,Gong C Q. Fluoresce Quenching Method for the Determination of Protein by Alizarin[J].Journal of Lunzhou University, 2000 ,36 (3) :105-110.
60 刘文明,宋功武,方光荣.罗丹明 6G 生物探针测定蛋白质[J].湖北大学学报(自然科学版), 2001,23(4):363-365.
61 Zhang X W , Zhao F L, Li K A. Flurometric Method for the Micro determination of Protein Using Indigo Carmine[J]. Microchemical.Journal,2001, 68(1):53-59.
62 吴霖,俞英,等.碱性品红与牛血清白蛋白的相互作用及其应用[J]华南师范大学学报(自然科学版)2004,2:95-99
63 Ma C Q.Li K A,Tong S Y. Determination of Proteins by Fluorescence Quenching of Erythrosine B [J].Anal.Chim. Acta.1996,333(1):83-85.
64 Cheng Zhi Huang,Xiao Bing Pang,Yuan Fang Li,Yi Juan Long.A resonance light scattering ratiometry appied for binding study of organic small molecules with biopolymer.Talanta 69(2006) 180-186
65 范丽,刘绍璞,龙秀芬.某些变色酸偶氮染料一蛋白质体系的共振瑞利散射及其分析应用仁月.分析化学,2002,30(1):81-85.
66 杨睿,刘绍璞,龙秀芬.曲本利蓝一蛋白质体系的共振瑞利散射及其分析应用〔月.西南师范大学学报,1999,24(2)=179-182.
67 (ejin W W ,13a0 Y } , Gong C(,1. h'luoresce (duenching Method for the 17etermination of Protein by Alizarin}l}.,/orsrna! o} Lanzhou university, 2000 , 36 ( 3 ) :105-110.
68 王照丽,李树伟,谭舒敏.变色酸 2R 共振光散射光谱法测定蛋白质[JJ.四川师范大学学报(自然科学版),2002,25(2):155-159.
69 Hu X L,Feng P. Interaction of Pyrogallot Red with Proteins and the Determination of Proteins by Resonance Light-Scattering[J].Journal of Southwest China Normal University,1998,23(5):561 -566.
70 王晓霞,沈含熙,郝永梅.觅菜红一蛋白质体系的共振散射光谱研究及分析应用[月.分析化学,2000,28(11):1388-1390.
71 冯宁川,龚国权.钍试剂 I 与蛋白质作用的共振光散射特征及微量蛋白质的光散射测定[J].分析试验室,2002,21(1):58-60
72 Huang C Z,Li Y-F,.Feng P. Determination of Proteins by Their Enhanced of Resonance Light Scattering by Fuchsine Acid [J].Frerenius .l. Anal. Chcnr.2001,371 (9): 1034-1036.
73 李树伟,李娜,赵凤林.用铀试剂 I 共振散射法测定蛋白质的研究[J].光谱学与光谱分析, 2002,22(4):619-622.
74 李树伟,李娜,赵凤林.用铬黑 T 作为共振散射光谱探针测定蛋白质[J].分析化学, 2002.30(6):732-735.
75 冯宁川,龚国权.亮黄一曲通 X-10'0 体系共振瑞利散射发测定蛋白质[J].分析化学,2002,30 (4);425-427.
76 蒋治良,邹节明,王利生.蛋白质与三氯乙酸相互作用的共振散射光谱研究及分析应用[J[.分析化学,2003, 31(1):70-73.
77 Chen L H,Zhao F L.Li K A. Microdetermination of Protein by Enhanced Rayleigh Light Scattering Spectroscopy with Thorin [J].Chinese. Journal of Chemistry.2002,20 (4):3G8-373.
78 翟海云,高建华,李华答.四磺基铈酞菁共振散射法测定人血清白蛋白[J].分析化学, 2002.30(12):1528-1530.
79 Zhao Y K,Chang W B,Ci Y X. Rapid and Sensitive Determination of Protein by Light-Scattering Technique with Eriochrome Blue Black R[J].Talanta, 2003,59 (3):477-484.
80 Suling Feng,Zihong Pan,Jing Fan. Determination of proteins at nanogram levels with Bordea- ux red based on the enhancement of resonance light scattering. [J].Spectrochimica Acta,part A 20036,64:574-579.
81 YanhuaChen,YuanTian.Determination of serum albumin in the presence ofPoly (diallyldime- thylammonium chloride) by resonance light scattering technique Spectrochimica Acta PartA xxx(2006)xxx-xxx
82 Le-YuWang,LunWang,etc.Determination of γ-globulin at nanogram levels by its enhance- ment effect on the resonance light scattering of functionalized HgS nanoparticles Talanta 62 (2004) 237-240
83 YanhuaChen,Dejiang Gao,etc.Resonance light scattering technique for the determination of proteins with polymethacrylic acid(PMAA).Spectrochimica Acta PartA xxx(2006)xxx-xxx
84 Wei Qin,Li Yan,etc.Rapid determination of ultra trace amounts of residual protein in penicillin based on its enhancement effects of Rayleigh light scattering on trimethoxyfluorone (TM-PF) -Mo(Ⅵ) comlex[J]Pharmaceutical and Biomedical Analysis.2005,38: 232-238
1 R.F.Pastanck,C.Bustamane,P.J.Collings,etal.Resonance light scattering:A new technique for studying chromophore aggregation[J].J.Am.Chem.Soc.1993,115:5393~5399.
2 P.J.Collings,E.J.Gibbs,T.E.Starr,etal.Resonance light scattering and its application in determining the size,shape,and aggregation number for supramolecular assemblies of chromospheres [J]. J.Phys.Chem.B,1999,103(10):8474-8481.
3 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(8): 1059-1062.
4 Li Y F, Huang C Z, Huang X H , etal. Determination of Proteins Based on Their ResonanceLight Scattering Enhancement Effect on AlcianBlue 8GX[J ]. Anal Sci ,2000 ,16:1249~1254.
5 Huang C Z, Li Y F, Feng P. Determination of Proteins withα,β,γ,δ-Tetrakis (4-Sulfophenyl) Porphine by Measuring the Enhanced Resonance Light Scattering at the Air/Liquid Interface[J ]. Anal Chem Acta2001 ,443:73~80.
6 陈小兰,李东辉,朱庆枝.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.
7 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.
8 吴会灵,李文友,何锡文.依波西隆蓝与蛋白质作用的共振光散射光谱及其分析应用[J ].分析化学 , 2003 , 31 (8 )981~991.
9 李 芳,刘绍璞,龙秀芬,等.某些变色酸双偶氮染料蛋白质体系的共振瑞利散射及其分析应用[J ].分析化学 , 2002 ,30 (1) :81~85.
10 Ma C Q,Li K A,Tong S Y.Anal Lett.1997,30(4):739.
11 Wei Y J,Li K A,Tong S Y.Talanta,1996,43(1):1.
12 黄承志,李原芳,黄新华.物理化学学报,1998,14(8):731
13 李树伟,李娜,赵凤林.分析化学, 2002, 30(6):732
14 梁爱惠,邹节明,蒋治良,等.磷钼杂多酸与蛋白质相互作用的共振散射光谱研究[J ].应用化学,2002 ,19(8)768~771.
1. 李原芳. 生物染色素与生物大分子受体体外作用的光散射表征及其分析应用.硕士学位论文.西南师范大学 2002
2 蒋治良,陈 飒,刘绍镤.光谱学与光谱分析,2002,22(4):615~618
3 H.Liang,X.C.Sheng,Z.L.Jiang,The photochemical study of HAS and BSA with resonance scattering and fluorescence spectroscopy[J].Chinese Chem.Lett.2002,11:251-254.
1 Arzum Erdem. Mehmet Gzsoz. Interaction of the anticancer drug epirubicin with DNA[J]. Analytica Chimica Acta, 2001(437):107-114.
2 Gelamo E L.Silva C H T P,Imasato H. etal, Interaction of BSA and HSA with ionic surfactant.: spectroscopy and modeling[J].Biochimica et Biophysica Acta,2002. 1594:84-99.
3 彭红军,周光明,等.萘酚绿 B 与 DNA 相互作用的 FT-SERS 研究[J].西南师大学报 2003(2)
4 傅英姿,周路,杨华敏,等.萘酚绿B与DNA相互作用的电化学研究[J] 广西师范大学学报(自科学版)2003(6)
5 S.M.T.Shaik, J.Seetharamappa,etc.Spectroscopic intestigations on the mechanism of bioactive dye with bovine serum albumin. [J]Dyes and Pigments 74(2007):665-671
6 Yan-Qing Wang, Hong-Mei Zhang ,etc. Interaction of flavonoid hesperidin with bovine serum albumin: A fluorescence quenching study [J].Luminescence 126(2007)211-218
7. 梅 平,颜承农.曙红 Y 与牛血清白蛋白结合反应特征研究[J].光谱学与光谱分析2006,26,(12):2306 -2310
8 杨曼曼,席小莉,杨频.变温下荧光猝灭和加强理论公式和理性的比较[J].化学学报2006,64(14) 1437-1445
9 俞英,周秋云.马兜铃酸 A 与牛血清白蛋白相互作用的研究[J].华南师范大学学报(自然科学版) 2006(11):72-77
10 C.Q.Jiang, M.X.Gao, J.X.He, Anal.Chim. Acta 452 (2002)185~189
11. J.Q.Liu, J.N.Tian, J.Y.Zhang, Z.D.Hu, X.G.Chen, Anal. Bioanal. Chem. 376(2003)864.
12 Xi-Zeng F, Zhang L, Lin-JinY, Chen W, Chun-LiB. Talanta 1998;47:1223.
13 D.P.Ross,S.Subramanian,Biochemie20(1981)3096~3102
14 T.Forster,O.Sinanoglu(Eds.), Modern Quantum Chemistry, 3, Academic Press, NewYork, 1996, p93
15 N.Seedher, B.Singh, P.Singh, IndianJ. Pharm.Sci.51 (1999)143~148
16 L.Cyril, J.K.Earl, W.M.Sperry, Biochemist’s Handbook, Eand F,N.Spon London,1961,p84.
17 B.Valeur,J.C.Brochon, New Trends in Fluorescence Spectroscopy, 6thed, SpringerPress, Berlin, 1999,p25.
18 J.H.Yan, Y.Liu,B. W.Jia, H.X.Xiao, S.Q.Song, J.Pharm .Biomed. Anal.36(2004)915~919
19 W.C.Abert, W.M. Gregory,G.S. Allan, Anal. Biochem. 213(1993)407.
20 B.Klajnert, M.Bryszewska, Bioelectrochemistry55 (2002) 33.
1 Bradford M M. A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding[J]. Anal biochem. 1976, 72; 248.
2 胡秋娈,李娜,赵凤林,等.硝基磺酚 C 光度法测定蛋白质的研究[J].高等学校化学学报, 1999, 20(2): 221-223.
3 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): 232-241.
4 胡秋娈,曹向阳,刘尚才等.血清蛋白质与绿磺酚 K 反应及其分析应用的研究[J].分析测试学报,2004,23(3):83.
5 陈莲惠,刘绍璞.水溶性苯胺蓝光度法测定蛋白质[J].分析科学学报,2004,20(3):266.
6 胡庆红,刘绍璞,范莉.蛋白质对铬蓝 SE 的褪色及其分析应用[J].分析化学,2002,30(1):42~45
7 吴湘江,刘狄,等.催化溴酸钾氧化萘酚绿 B 褪色紫外光度法测定亚硝酸根[J].理化检验一化学分册 2006,42(1):58-59
8 黄典文,唐锦标.萘酚绿 B 显色光度法测定盐中微量碘冶金分析[J].2005,25(5):78-80
9 陈晓红,陈雪梅,等.阻抑萘酚绿褪色和生色反应双波长动力学光度法测定碘的研究[J].理化检验一化学分册 2002,38(9):466-477
10 高楼军,柴红梅,等.萘酚绿B催化动力学光度法测定痕量钒.[J].延安大学学报(自然科学版) 2004,23(3):54-55
11 黄承志,李原芳,黄新华,等.阳离子表面活性剂存在下卟啉聚集的光谱研究.[J].物理化学学报 1998 14 (08):731-736