钾离子对乳酸链球菌细胞膜上的电势梯度和pH梯度的影响。
Effects of potassium ions on the electrical and pH gradients across the membrane of Streptococcus lactis cells.
作者信息
Kashket E R, Barker S L
出版信息
J Bacteriol. 1977 Jun;130(3):1017-23. doi: 10.1128/jb.130.3.1017-1023.1977.
Bacteria transduce and conserve energy at the plasma membrane in the form of an electrochemical gradient of hydrogen ions (deltap). Energized cells of Streptococcus lactis accumulate K+ ions presumably in exchange for H+. We reasoned that if the movement of H+ is limited, then an increase in H+ efflux, effected by potassium transport inward, should result in changes in the steady-state deltap. We determined the electrical gradient (deltapsi) from the fluorescence of a membrane potential-sensitive cyanine dye, and the chemical H+ gradient (deltapH) from the distribution of a weak acid. The deltap was also determined independently from the accumulation levels of the non-metabolizable sugar thiomethyl-beta-galactoside. KCl addition to cells fermenting glucose or arginine at pH 5 changed the deltap very little, but lowered the deltapsi, while increasing the deltapH. At pH 7, the deltapH only increased slightly; thus, the decrease in deltapsi, effected by addition of potassium ions, resulted in a lowered steady-state deltap. These effects were shown not to be due to swelling or shrinking of the cells. Thus, in these nongrowing cells, under conditions of energy utilization for the active transport of K+, the components of deltap can vary depending on the limitations on the net movement of protons.
细菌在质膜上以氢离子电化学梯度(Δp)的形式转导和储存能量。乳酸链球菌的活跃细胞积累K⁺离子,推测是为了交换H⁺。我们推断,如果H⁺的移动受到限制,那么由钾离子向内运输引起的H⁺外流增加应该会导致稳态Δp的变化。我们通过膜电位敏感的花青染料的荧光测定了电位梯度(Δψ),并通过弱酸的分布测定了化学H⁺梯度(ΔpH)。还从不可代谢糖硫代甲基-β-半乳糖苷的积累水平独立测定了Δp。在pH 5时,向发酵葡萄糖或精氨酸的细胞中添加KCl对Δp的影响很小,但降低了Δψ,同时增加了ΔpH。在pH 7时,ΔpH仅略有增加;因此,添加钾离子导致的Δψ降低导致稳态Δp降低。这些影响并非由于细胞肿胀或收缩所致。因此,在这些非生长细胞中,在利用能量进行K⁺主动运输的条件下,Δp的组成部分可能会因质子净移动的限制而有所不同。
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