ELECTROPORATION OF THE PHOTOSYNTHETIC MEMBRANE - STRUCTURAL-CHANGES IN PROTEIN AND LIPID-PROTEIN DOMAINS

被引:7
作者
ROSEMBERG, Y [1 ]
ROTENBERG, M [1 ]
KORENSTEIN, R [1 ]
机构
[1] TEL AVIV UNIV, SACKLER FAC MED, DEPT PHYSIOL & PHARMACOL, IL-69978 TEL AVIV, ISRAEL
来源
BIOPHYSICAL JOURNAL | 1994年 / 67卷 / 03期
关键词
D O I
10.1016/S0006-3495(94)80571-5
中图分类号
Q6 [生物物理学];
学科分类号
071011 ;
摘要
A biological membrane undergoes a reversible permeability increase through structural changes in the lipid domain when exposed to high external electric fields. The present study shows the occurrence of electric field-induced changes in the conductance of the proton channel of the H+-ATPase as well as electric field-induced structural changes in the lipid-protein domain of photosystem (PS) II in the photosynthetic membrane. The study was carried out by analyzing the electric field-stimulated delayed luminescence (EPL), which originates from charge recombination in the protein complexes of PS I and II of photosynthetic vesicles. We established that a small fraction of the total electric field-induced conductance change was abolished by N,N'-dicyclohexylcarbodiimide (DCCD), an inhibitor of the H+-ATPase, This reversible electric field-induced conductance change has characteristics of a small channel and possesses a lifetime less than or equal to 1 ms. To detect electric field-induced changes in the lipid-protein domains of PS II, we examined the effects of phospholipase A(2) (PLA(2)) on EPL. Higher values of EPL were observed from vesicles that were exposed in the presence of PLA(2) to an electroporating electric field than to a nonelectroporating electric field. The effect of the electroporating field was a long-lived one, lasting for a period greater than or equal to 2 min. This effect was attributed to long-lived electric field-induced structural changes in the lipid-protein domains of PS II.
引用
收藏
页码:1060 / 1066
页数:7
相关论文
共 50 条
[1]  
ABIDOR IG, 1979, BIOELECTROCH BIOENER, V6, P37
[2]   MECHANISM OF DELAYED LIGHT PRODUCTION BY PHOTOSYNTHETIC ORGANISMS AND A NEW EFFECT OF ELECTRIC FIELDS ON CHLOROPLASTS [J].
ARNOLD, W ;
AZZI, J .
PHOTOCHEMISTRY AND PHOTOBIOLOGY, 1971, 14 (03) :233-&
[3]   NOTOPHOSPHORYLATION BY SWISS-CHARD CHLOROPLASTS [J].
AVRON, M .
BIOCHIMICA ET BIOPHYSICA ACTA, 1960, 40 (02) :257-272
[4]   ION ACTIVATION OF THE NA,K-ATPASE IN ALTERNATING CURRENTS [J].
BLANK, M ;
SOO, L .
BIOELECTROCHEMISTRY AND BIOENERGETICS, 1990, 24 (01) :51-61
[5]   EFFECT OF MEMBRANE-POTENTIAL ON THE CONFORMATION OF BACTERIORHODOPSIN RECONSTITUTED IN LIPID VESICLES [J].
BRUMFELD, V ;
MILLER, IR .
BIOPHYSICAL JOURNAL, 1988, 54 (04) :747-750
[6]   ELECTRIC FIELD-INDUCED LATERAL MOBILITY OF PHOTOSYSTEM-I IN THE PHOTOSYNTHETIC MEMBRANE - A STUDY BY ELECTROPHOTOLUMINESCENCE [J].
BRUMFELD, V ;
MILLER, IR ;
KORENSTEIN, R .
BIOPHYSICAL JOURNAL, 1989, 56 (03) :607-614
[7]   DIELECTRIC-BREAKDOWN OF THE ERYTHROCYTE-MEMBRANE ENHANCES TRANSBILAYER MOBILITY OF PHOSPHOLIPIDS [J].
DRESSLER, V ;
SCHWISTER, K ;
HAEST, CWM ;
DEUTICKE, B .
BIOCHIMICA ET BIOPHYSICA ACTA, 1983, 732 (01) :304-307
[8]   ELECTROPHOTOLUMINESCENCE OF CHLOROPLASTS [J].
ELLENSON, JL ;
SAUER, K .
PHOTOCHEMISTRY AND PHOTOBIOLOGY, 1976, 23 (02) :113-123
[9]   ELECTROPHOTOLUMINESCENCE AND THE ELECTRICAL-PROPERTIES OF THE PHOTOSYNTHETIC MEMBRANE .1. INITIAL KINETICS AND THE CHARGING CAPACITANCE OF THE MEMBRANE [J].
FARKAS, DL ;
KORENSTEIN, R ;
MALKIN, S .
BIOPHYSICAL JOURNAL, 1984, 45 (02) :363-373
[10]   ELECTROPHOTOLUMINESCENCE AND THE ELECTRICAL-PROPERTIES OF THE PHOTOSYNTHETIC MEMBRANE .2. ELECTRIC FIELD-INDUCED ELECTRICAL BREAKDOWN OF THE PHOTOSYNTHETIC MEMBRANE AND ITS RECOVERY [J].
FARKAS, DL ;
MALKIN, S ;
KORENSTEIN, R .
BIOCHIMICA ET BIOPHYSICA ACTA, 1984, 767 (03) :507-514
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