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1
Large scale nonproton ion release and bacteriorhodopsin's state of aggregation in lipid vesicles. I. Monomers.脂质体中大规模非质子离子释放及细菌视紫红质的聚集状态。I. 单体
Biophys J. 1987 Jul;52(1):115-21. doi: 10.1016/S0006-3495(87)83195-8.
2
Large transient nonproton ion movements in purple membrane suspensions are abolished by solubilization in Triton X-100.紫色膜悬浮液中大量短暂的非质子离子运动在被Triton X - 100溶解后消失。
Biophys J. 1986 Sep;50(3):405-15. doi: 10.1016/S0006-3495(86)83476-2.
3
Abrupt onset of large scale nonproton ion release in purple membranes caused by increasing pH or ionic strength.由pH值升高或离子强度增加引起的紫膜中大规模非质子离子的突然释放。
Biophys J. 1987 Jun;51(6):875-81. doi: 10.1016/S0006-3495(87)83415-X.
4
Nonproton ion release by purple membranes exhibits cooperativity as shown by determination of the optical cross-section.紫色膜的非质子离子释放表现出协同性,如通过光学截面测定所示。
Biophys J. 1988 Aug;54(2):197-204. doi: 10.1016/S0006-3495(88)82948-5.
5
Bacteriorhodopsin in ice. Accelerated proton transfer from the purple membrane surface.冰中的细菌视紫红质。紫色膜表面质子转移加速。
FEBS Lett. 1990 Dec 17;277(1-2):277-80. doi: 10.1016/0014-5793(90)80864-f.
6
The chromophore retinal hinders passive proton/hydroxide ion translocation through bacteriorhodopsin.发色团视黄醛会阻碍质子/氢氧根离子通过细菌视紫红质进行被动转运。
Arch Biochem Biophys. 1989 Dec;275(2):395-409. doi: 10.1016/0003-9861(89)90387-1.
7
Effect of protein-protein interaction on light adaptation of bacteriorhodopsin.蛋白质-蛋白质相互作用对细菌视紫红质光适应的影响。
Biochemistry. 1980 Jul 8;19(14):3374-81. doi: 10.1021/bi00555a043.
8
Displacement current on purple membrane fragments oriented in a suspension.悬浮液中定向排列的紫膜片段上的位移电流。
Biophys Chem. 1983 Nov;18(4):397-405. doi: 10.1016/0301-4622(83)80053-2.
9
Absolute quantum yields and proof of proton and nonproton transient release and uptake in photoexcited bacteriorhodopsin.光激发细菌视紫红质中的绝对量子产率以及质子和非质子瞬态释放与摄取的证据。
Proc Natl Acad Sci U S A. 1983 Jan;80(1):178-80. doi: 10.1073/pnas.80.1.178.
10
Lipid-induced conformational changes of an integral membrane protein: an infrared spectroscopic study of the effects of Triton X-100 treatment on the purple membrane of Halobacterium halobium ET1001.脂质诱导的整合膜蛋白构象变化:Triton X-100处理对嗜盐栖热菌ET1001紫膜影响的红外光谱研究
Biochemistry. 1996 Apr 9;35(14):4558-67. doi: 10.1021/bi952258l.

引用本文的文献

1
Non-proton ion release in purple membrane.紫膜中的非质子离子释放
Biophys J. 1994 Dec;67(6):2490-2. doi: 10.1016/S0006-3495(94)80737-4.
2
Nonproton ion release by purple membranes exhibits cooperativity as shown by determination of the optical cross-section.紫色膜的非质子离子释放表现出协同性,如通过光学截面测定所示。
Biophys J. 1988 Aug;54(2):197-204. doi: 10.1016/S0006-3495(88)82948-5.
3
Replacement of aspartic residues 85, 96, 115, or 212 affects the quantum yield and kinetics of proton release and uptake by bacteriorhodopsin.天冬氨酸残基85、96、115或212的替换会影响细菌视紫红质释放和摄取质子的量子产率及动力学。
Proc Natl Acad Sci U S A. 1989 Jan;86(2):529-33. doi: 10.1073/pnas.86.2.529.

本文引用的文献

1
The quantum efficiency of proton pumping by the purple membrane of Halobacterium halobium.嗜盐菌紫膜质子泵的量子效率。
Biophys J. 1980 May;30(2):231-42. doi: 10.1016/S0006-3495(80)85091-0.
2
Delipidation of bacteriorhodopsin and reconstitution with exogenous phospholipid.细菌视紫红质的脱脂及与外源磷脂的重构。
Proc Natl Acad Sci U S A. 1980 Jan;77(1):323-7. doi: 10.1073/pnas.77.1.323.
3
Energy storage in the primary step of the photocycle of bacteriorhodopsin.细菌视紫红质光循环初级阶段中的能量存储。
Biophys J. 1983 Apr;42(1):61-9. doi: 10.1016/S0006-3495(83)84369-0.
4
Effect of protein-protein interaction on light adaptation of bacteriorhodopsin.蛋白质-蛋白质相互作用对细菌视紫红质光适应的影响。
Biochemistry. 1980 Jul 8;19(14):3374-81. doi: 10.1021/bi00555a043.
5
Proton movement in reconstituted purple membrane of halobacteria: effects of pH and ionic composition of the medium.嗜盐菌重组紫膜中的质子运动:培养基pH值和离子组成的影响
Arch Biochem Biophys. 1983 Apr 15;222(2):464-72. doi: 10.1016/0003-9861(83)90545-3.
6
Absolute quantum yields and proof of proton and nonproton transient release and uptake in photoexcited bacteriorhodopsin.光激发细菌视紫红质中的绝对量子产率以及质子和非质子瞬态释放与摄取的证据。
Proc Natl Acad Sci U S A. 1983 Jan;80(1):178-80. doi: 10.1073/pnas.80.1.178.
7
Bacteriorhodopsin and related pigments of halobacteria.嗜盐菌的细菌视紫红质及相关色素。
Annu Rev Biochem. 1982;51:587-616. doi: 10.1146/annurev.bi.51.070182.003103.
8
Isolation of the cell membrane of Halobacterium halobium and its fractionation into red and purple membrane.嗜盐菌细胞膜的分离及其分成红色膜和紫色膜的分级分离。
Methods Enzymol. 1974;31:667-78. doi: 10.1016/0076-6879(74)31072-5.
9
Order of proton uptake and release by bacteriorhodopsin at low pH.细菌视紫红质在低pH值下质子摄取和释放的顺序。
Biophys J. 1986 Feb;49(2):563-6. doi: 10.1016/S0006-3495(86)83666-9.
10
Abrupt onset of large scale nonproton ion release in purple membranes caused by increasing pH or ionic strength.由pH值升高或离子强度增加引起的紫膜中大规模非质子离子的突然释放。
Biophys J. 1987 Jun;51(6):875-81. doi: 10.1016/S0006-3495(87)83415-X.

脂质体中大规模非质子离子释放及细菌视紫红质的聚集状态。I. 单体

Large scale nonproton ion release and bacteriorhodopsin's state of aggregation in lipid vesicles. I. Monomers.

作者信息

Marinetti T

出版信息

Biophys J. 1987 Jul;52(1):115-21. doi: 10.1016/S0006-3495(87)83195-8.

DOI:10.1016/S0006-3495(87)83195-8
PMID:3607219
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1329990/
Abstract

Light-induced conductivity transients have been observed in preparations of bacteriorhodopsin (bR) in phospholipid vesicles at high lipid/protein molar ratios. Under these conditions, bR is known to be dissolved as monomers in the lipid bilayer. The conductivity transients are due mostly to proton movements, including a trans-membrane component. Kinetic resolution of the conductance change due to proton ionophore-induced leakage through the vesicle membrane provides a novel method to quantitate the number of protons pumped, even in heavily buffered solutions. Some of the transient signal seen on the timescale of the bR photocycle is due to nonproton ions but is smaller than that observed in native purple membranes at pH 7 in low salt. Furthermore, when the pH is raised to 8, the very large transient nonproton ion release seen in purple membranes is not seen in the vesicles. This correlates well with previous results (Marinetti, T., and D. Mauzerall, 1986, Biophys. J., 50:405-415), in which the nonproton ion movements observed with native purple membranes were abolished by solubilization in Triton X-100. Thus, the nonproton ion release appears to be a property of bR in the native aggregated state.

摘要

在高脂质/蛋白质摩尔比的磷脂囊泡中制备的细菌视紫红质(bR)制剂中观察到了光诱导的电导率瞬变。在这些条件下,已知bR以单体形式溶解在脂质双层中。电导率瞬变主要归因于质子运动,包括跨膜成分。质子离子载体诱导的通过囊泡膜的泄漏所导致的电导变化的动力学解析提供了一种新方法,即使在缓冲良好的溶液中也能定量泵出的质子数。在bR光循环时间尺度上看到的一些瞬态信号归因于非质子离子,但比在低盐条件下pH 7的天然紫色膜中观察到的要小。此外,当pH值升高到8时,在囊泡中未观察到在紫色膜中看到的非常大的瞬态非质子离子释放。这与先前的结果(Marinetti, T., and D. Mauzerall, 1986, Biophys. J., 50:405 - 415)很好地相关,在该结果中,天然紫色膜中观察到的非质子离子运动通过在Triton X - 100中溶解而被消除。因此,非质子离子释放似乎是天然聚集状态下bR的一种特性。