PROTON MIGRATION ALONG THE MEMBRANE-SURFACE AND RETARDED SURFACE TO BULK TRANSFER

被引:0
|
作者
HEBERLE, J
RIESLE, J
THIEDEMANN, G
OESTERHELT, D
DENCHER, NA
机构
[1] MAX PLANCK INST BIOCHEM, D-82152 MARTINSRIED, GERMANY
[2] TH DARMSTADT, INST BIOCHEM, D-64287 DARMSTADT, GERMANY
[3] HAHN MEITNER INST BERLIN GMBH, D-14109 BERLIN, GERMANY
来源
NATURE | 1994年 / 370卷 / 6488期
关键词
D O I
10.1038/370379a0
中图分类号
O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];
学科分类号
07 ; 0710 ; 09 ;
摘要
Since the proposal of the chemiosmotic theory(1) there has been a continuing debate about how protons that have been pumped across membranes reach another membrane protein that utilizes the established pH gradient. Evidence has been gathered in favour of a 'delocalized' theory, in which the pumped protons equilibrate with the aqueous bulk phase before being consumed, and a 'localized' one, in which protons move exclusively along the membrane surface(2,3). We report here that after proton release by an integral membrane protein, long-range proton transfer along the membrane surface is faster than proton exchange with the bulk water phase. The rate of lateral proton diffusion can be calculated by considering the buffer capacity of the membrane surface. Our results suggest that protons can efficiently diffuse along the membrane surface between a source and a sink (for example H+-ATP synthase) without dissipation losses into the aqueous bulk.
引用
收藏
页码:379 / 382
页数:4
相关论文
共 50 条
  • [31] NONRADIOACTIVE METHODS FOR LABELING AND IDENTIFYING MEMBRANE-SURFACE PROTEINS
    DENTLER, WL
    METHODS IN CELL BIOLOGY, VOL 47, 1995, 47 : 407 - 411
  • [32] IMPROVEMENT OF DIALYZER COMPATIBILITY BY REDUCTION OF MEMBRANE-SURFACE AREA
    SCHAEFER, RM
    RAUTENBERG, W
    NEUMANN, S
    HEIDLAND, A
    HORL, WH
    CLINICAL NEPHROLOGY, 1986, 26 : S35 - S38
  • [33] MODELING CURVED SURFACE-WAVE PATHS - MEMBRANE-SURFACE WAVE SYNTHETICS
    TANIMOTO, T
    GEOPHYSICAL JOURNAL INTERNATIONAL, 1990, 102 (01) : 89 - 100
  • [34] IMPROVED BIOCOMPATIBILITY OF DIALYZERS BY REDUCED MEMBRANE-SURFACE AREA
    VIENKEN, J
    BAURMEISTER, U
    ARTIFICIAL ORGANS, 1987, 11 (03) : 272 - 273
  • [35] CATALYTIC FACILITATION BY DIFFUSION OF ADSORBED SUBSTRATE ON MEMBRANE-SURFACE
    NAYUDU, PRV
    HANNAFORD, P
    LOWE, RM
    BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 1986, 138 (02) : 803 - 812
  • [36] PROTEINS ASSOCIATED WITH THE MEMBRANE-SURFACE OF LENS FIBER CELLS
    GRIESS, GA
    ZIGMAN, S
    EXPERIMENTAL EYE RESEARCH, 1982, 34 (01) : 15 - 21
  • [37] DO CYTOSOLIC FACTORS PREVENT PROMISCUITY AT THE MEMBRANE-SURFACE
    LITHGOW, T
    HOJ, PB
    HOOGENRAAD, NJ
    FEBS LETTERS, 1993, 329 (1-2) : 1 - 4
  • [38] ROLE OF THE MEMBRANE-SURFACE IN THE ACTIVATION OF FACTOR-X
    KRISHNASWAMY, S
    FIELD, KA
    EDGINGTON, TS
    MORRISSEY, JH
    MANN, KG
    CIRCULATION, 1990, 82 (04) : 133 - 133
  • [39] MOBILITY OF SPIN PROBES IN SOLUTION AND IN THE CHLOROPLAST MEMBRANE-SURFACE
    KAFALIEVA, D
    BUCHEVA, M
    APOSTOLOVA, E
    JOURNAL OF PLANT PHYSIOLOGY, 1986, 122 (05) : 445 - 454
  • [40] ROLE OF THE MEMBRANE-SURFACE IN THE ACTIVATION OF FACTOR-X
    KRISHNASWAMY, S
    FIELD, KA
    EDGINGTON, TS
    MORRISSEY, JH
    MANN, KG
    ARTERIOSCLEROSIS, 1990, 10 (05): : A890 - A890
12345