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植物质膜质子泵ATP酶:一种具有多种生理功能的高度调控的P型ATP酶。

The plant plasma membrane proton pump ATPase: a highly regulated P-type ATPase with multiple physiological roles.

作者信息

Duby Geoffrey, Boutry Marc

机构信息

Unité de Biochimie Physiologique, Institut des Sciences de la Vie, Université Catholique de Louvain, 1348 Louvain-La-Neuve, Belgium.

出版信息

Pflugers Arch. 2009 Jan;457(3):645-55. doi: 10.1007/s00424-008-0457-x. Epub 2008 Jan 29.

DOI:10.1007/s00424-008-0457-x
PMID:18228034
Abstract

Around 40 P-type ATPases have been identified in Arabidopsis and rice, for which the genomes are known. None seems to exchange sodium and potassium, as does the animal Na(+)/K(+)-ATPase. Instead, plants, together with fungi, possess a proton pumping ATPase (H(+)-ATPase), which couples ATP hydrolysis to proton transport out of the cell, and so establishes an electrochemical gradient across the plasma membrane, which is dissipated by secondary transporters using protons in symport or antiport, as sodium is used in animal cells. Additional functions, such as stomata opening, cell growth, and intracellular pH homeostasis, have been proposed. Crystallographic data and homology modeling suggest that the H(+)-ATPase has a broadly similar structure to the other P-type ATPases but has an extended C-terminal region, which is involved in enzyme regulation. Phosphorylation of the penultimate residue, a Thr, and the subsequent binding of regulatory 14-3-3 proteins result in the formation of a dodecamer (six H(+)-ATPase and six 14-3-3 molecules) and enzyme activation. This type of regulation is unique to the P-type ATPase family. However, the recent identification of additional phosphorylated residues suggests further regulatory features.

摘要

在已知基因组序列的拟南芥和水稻中已鉴定出约40种P型ATP酶。似乎没有一种能像动物的钠钾ATP酶那样进行钠钾交换。相反,植物和真菌一样,拥有一种质子泵ATP酶(H⁺-ATP酶),它将ATP水解与质子向细胞外的运输偶联起来,从而在质膜上建立一个电化学梯度,该梯度由次级转运蛋白利用质子同向转运或反向转运来消散,就像动物细胞中利用钠一样。还提出了其他功能,如气孔开放、细胞生长和细胞内pH稳态。晶体学数据和同源建模表明,H⁺-ATP酶的结构与其他P型ATP酶大致相似,但有一个延伸的C末端区域,该区域参与酶的调节。倒数第二个残基(苏氨酸)的磷酸化以及随后调节性14-3-3蛋白的结合导致形成十二聚体(六个H⁺-ATP酶和六个14-3-3分子)并激活酶。这种调节类型是P型ATP酶家族所特有的。然而,最近对其他磷酸化残基的鉴定表明存在进一步的调节特征。

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