菌紫质的生物素标记和光电响应(英文)

Biotin Labeling of Bacteriorhodopsin and Its Photoelectric Response

导出

摘要用生物素标记紫膜(purple membrane,PM)中的菌紫质(bacteriorhodopsin,BR)后,紫外-可见吸收光谱测定表明,PM的BR中,视黄醛微环境没有明显变化;时间分辨动力学光谱研究发现,生物素化的PM中,BR保留了光循环的活性和质子泵的功能,但这些功能有所下降。通过双层脂膜(bilayer lipid membrane,BLM)的光电响应测定可知,生物素化的PM中,BR同样具有光电响应活性。在本工作中,我们也在BLM系统上研究了生物素化的BR与抗生物素之间的分子识别,并进行了定向组装,测量结果表明,定向组装的生物素化PM,其光电压值要比非特异性吸附的光电压值大20倍,而其在BLM上的量只比非特异性吸附的PM大2倍。 The bacteriorhodopsin（BR） in purple membrane（PM） was labeled by biotin,and illustrated by the characteristic UV-VIS absorption spectra.The results showed that microenvironment where retinal existed within BR of biotinylated PM had not been disturbed.Flash kinetic absorption measurements suggest that the activities of photocycle and proton pump of biotinylated PM had been maintained but weakened.It was indicated by the photoelectric response in bilayer lipid membrane（BLM） that biotinylated PM also maintained its photoelectric activity.In this work,we completed the oriented assembly of biotinylated PM by biotin/streptavidin molecular recognition in the BLM system.The photoelectric voltage peak of oriented biotinylated PM in the BLM was 20-fold larger than that of non-specific absorbed PM although the amount of the biotinylated PM on the membrane was about 2-fold more than PM on the membrane.

作者钟声徐兵余抨胡坤生

机构地区中国科学院生物物理研究所上饶师范学院生命科学系吉林大学物理学院

出处《生物物理学报》 CAS CSCD 北大核心 2011年第9期774-778,共5页 Acta Biophysica Sinica

基金 supported by a grant from the "973" Program(2007CB935703)~~

关键词菌紫质紫膜生物素化定向组装光电响应 Bacteriorhodopsin Purple membrane Biotinylation Oriented assembly Photoelectric response

分类号 Q632 [生物学—生物物理学]

引文网络
相关文献

参考文献12

1徐兵,胡坤生.膜脂环境对紫膜蛋白的影响[J].生物物理学报,2008,24(4):273-276. 被引量：1
2陈德亮,赵谦,邓晓蓓,刘杨,胡坤生.氮氧自由基自旋探针R1在特定空间位点上对bacteriorhodopsin产生颜色调谐效应的机理分析[J].生物物理学报,2010,26(4):322-333. 被引量：1
3Yao BL,Xu DL,Hou X,Hu KS,Wang AJ.Kinetics of picosecond laser pulse induced charge separation and proton transfer in bacteriorhodopsin.J Biomed Opt,2003,8(1):48-52.
4Frydrych M,Lensu L,Aschi C,Parkkinen S,Parkkinen J,Jaaskelainen T.Model of photovoltage response of bacteriorhodopsin in PVA films.Comput Nanosci,2001,2:5-8.
5Oesterhelt D,Stoeckenius W.Isolation of the cell membrane of Halobacterium halobium and its fractionation into red and purple membrane.Methods Enzymol,1974,31:667-678.
6Xu B,Chen DL,Hu KS.The improvement of culture of Halobacterium halobium and purification of PM.Prog Biochem Biophys,2002,29(5):827-828.
7Henderson R,Jubb JS,Whytock S.Specific labeling of the protein and lipid on the extracellular surface of purple membrane.J Mol Biol,1978,123:259-274.
8Chen DL,Lu YJ,Sui SF,Xu B,Hu KS.Oriented assembly of purple membrane on solid support,mediated by molecular recognition.J Phys Chem B,2003,107:3598-3605.
9Green NM.Spectrophotometric determination of avidin and biotin.Methods Enzymol,1970,16:418-424.
10Krebs MP,Isenbarger TA.Structural determinants of purple membrane assembly.Biochim Biophys Acta,2000,1460:15-26.

二级参考文献28

1胡坤生,王敖金,lanE.G.Morrison,RichardJ.Cherry.Electron microscopic observation and rotational diffusion measurement of bacteriorhodopsin in lipid vesicles[J].Science China Chemistry,2001,44(6):663-669. 被引量：1
2Lanyi JK. Proton transfers in the bacteriorhodopsin photocycle. Biochim Biophys Acta, 2006, 1757 (8): 1012-1018.
3Hirai T, Subramaniam S, Lanyi JK. Structural snapshots of conformational changes in a seven-helix membrane protein: lessons from bacteriorhodopsin. Curr Opin Struct Biol, 2009, 19(4): 433-439.
4Lanyi JK. Bacteriorhodopsin. Annu Rev Physiol, 2004, 66: 665-688.
5Hoffmann M, Wanko M, Strodel P, Konig PH, Frauenheim T, Schulten K, Thiel W, Tajkhorshid E, Elstner M. Color tuning in rhodopsins: the mechanism for the spectral shift between bacteriorhodopsin and sensory rhodopsin Ⅱ. J Am Chem Soc, 2006, 128(33): 10808-10818.
6Mogi T, Stem L J, Marti T, Chao BH, Khorana HG. Aspartic acid substitutions affect proton translocation by bactedorhodopsin, Proc NaU Acad Sci USA, 1988, 85(12): 4148-4152.
7Subramaniam S, Greenhalgh DA, Rath P, Rothschild K J, Khorana HG. Replacement of leucine-93 by alanine or threonine slows down the decay of the N and O intermediates in the photocycle of bacteriorhodopsin: implications for proton uptake and 13-cis-retinal all-trans-retinal reisomerization. Proc Natl Acad Sci USA, 1991, 88(15): 6873-6877.
8Luecke H, Schobert B, Richter HT, Cartailler JP, Lanyi JK. Structure of bacteriorhodopsin at 1.55 A resolution. J Mol Biol, 1999, 291(4): 899-911.
9Yoshitsugu M, Shibata M, Ikeda D, Furutani Y, Kandori H. Color change of proteorhodopsin by a single amino acid replacement at a distant cytoplasmic loop. Angew Chem Int Ed Engl, 2008, 47(21): 3923-3926.
10Klare JP, Steinhoff HJ. Spin labeling EPR. Photosynth Res, 2009, 102(2-3): 377-390.

1胡坤生,谈曼琪,孙纹琦.温度对脂质囊泡中单体菌紫质分子结构和光电响应的影响[J].生物物理学报,1989,5(3):241-245.
2胡坤生,谈曼琪,石志远,彭程航.缬氨霉素对紫膜碎片双层平板脂膜(BLM)光电响应的影响[J].生物物理学报,1991,7(2):179-182. 被引量：1
3郑国和,王敖金,胡坤生,杨俭华.光电响应对紫膜外表面[k^+]依赖性与质子泵效率相关[J].生物物理学报,1997,13(1):149-152. 被引量：1
4胡坤生,王大辉,谈曼琪.pH梯度对平板膜中单体菌紫质分子光电响应的影响[J].生物化学与生物物理进展,1990,17(5):364-367.
5王光毓,胡坤生.酰化菌紫质动力学光谱的pH和离子强度依赖性[J].科学通报,1995,40(11):1033-1035.
6胡坤生,施桦,黄莹,余福.酰化菌紫质的动力学光谱及光电特性研究[J].生物化学与生物物理进展,1994,21(2):150-153. 被引量：3
7李玉松,王伯沄,毛庆波.微波辐射在十二种抗原ABC染色中的应用[J].中国组织化学与细胞化学杂志,1993,2(1):91-94.
8蒋秋兴,胡坤生,王玮.菌紫质光循环中间体O的动力学光谱及蜂毒素的影响[J].科学通报,1996,41(7):647-650.
9田心棣,Z.SALAMON,V.KOCHEV,A.OTTOVA,M.ZVIMAN.以双层脂膜为基础的生物传感器和器件及其应用及展望[J].生物化学与生物物理进展,1992,19(2):100-104. 被引量：5
10董凤琴,杨俭华.基于感知器算法的BR光谱和光电响应概率贡献估计[J].首都师范大学学报（自然科学版）,2000,21(4):21-25.

生物物理学报

2011年第9期

浏览历史

内容加载中请稍等...

菌紫质的生物素标记和光电响应(英文)

参考文献12

二级参考文献28

相关作者

相关机构

相关主题

浏览历史