质子电化学梯度

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  • Proton electrochemical gradient;electrochemical proton gradient
质子电化学梯度质子电化学梯度
  1. 植物细胞质膜和液泡膜上的H+-ATPase消耗ATP能量建立跨膜质子电化学势梯度,推动各种离子和小分子代谢产物进行跨膜运输。

    Plant cell plasma membrane and vacuolar membrane H + - ATPase consumes ATP energy establishment of transmembrane proton electrochemical potential gradient , promoting a variety of ions and small molecule metabolites to transmembrane transport .

  2. Na~+和可溶性物质的次级转运依赖于由质子泵建立的质子电化学梯度。

    The active transport of Na + and solute molecules depends on the proton electrochemical gradients established by proton pumps .

  3. 在植物中三类不同的质子泵产生跨膜质子电化学梯度:质膜H~+-ATPase,液泡膜H~+-ATPase和液泡膜H~+-PPase。

    In plants , three distinct proton pumps generate proton electrochemical gradients across cell membranes : the P-type ATPase pumps , the vacuolar H + - ATPase and the vacuolar H + - pyrophosphatase .