镱通过调节水通道蛋白增加玉米根的跨膜水转运。

Ytterbium increases transmembrane water transport in Zea mays roots via aquaporin modulation.

机构信息

Kazan Institute of Biochemistry and Biophysics, FRC Kazan Scientific Center of Russian Academy of Sciences, P.O. Box 30, Lobachevsky st., 2/13, Kazan, Russia, 420111.

Kazan (Volga region) Federal University, Kremlyovskaya st., 18, 420008, Kazan, Russia.

出版信息

Biometals. 2019 Dec;32(6):901-908. doi: 10.1007/s10534-019-00221-4. Epub 2019 Oct 5.

DOI:10.1007/s10534-019-00221-4

PMID:31587124

Abstract

In our study, the rare earth element ytterbium (Yb) was demonstrated to affect water exchange in roots of Zea mays seedlings. Herewith, the overall membrane permeability (P) increased. The P increase was determined by aquaporin activity but not the membrane lipid component since the closure of aquaporin channels due to low intracellular pH abolished the positive effect of Yb on P. Additionally, the expression level of aquaporin genes ZmPIP2;2, ZmPIP2;6 and ZmTIP2;2 was increased when plants were grown in the presence of Yb. Our results indicate that previously described positive influence of rare earth metals on plant growth and productivity may be mediated (at least partially) by the modification of the plant hydraulic system.

摘要

在我们的研究中，稀土元素镱（Yb）被证明会影响玉米幼苗根系的水分交换。由此，整体膜通透性（P）增加。P 的增加是由水通道蛋白活性决定的，而不是膜脂质成分，因为由于细胞内 pH 值低而导致水通道蛋白通道关闭，从而消除了 Yb 对 P 的正向作用。此外，当植物在 Yb 的存在下生长时，水通道蛋白基因 ZmPIP2;2、ZmPIP2;6 和 ZmTIP2;2 的表达水平增加。我们的结果表明，先前描述的稀土金属对植物生长和生产力的正向影响可能（至少部分）是通过植物水力系统的修饰来介导的。

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镱通过调节水通道蛋白增加玉米根的跨膜水转运。

Ytterbium increases transmembrane water transport in Zea mays roots via aquaporin modulation.

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