在大麦中鉴定出一种水通道蛋白PIP对水具有通透性以及一个促进水运输的丝氨酸残基。

Identification of an H O permeable PIP aquaporin in barley and a serine residue promoting H O transport.

作者信息

Rhee Jiye, Horie Tomoaki, Sasano Shizuka, Nakahara Yoshiki, Katsuhara Maki

机构信息

Institute of Plant Science and Resources, Okayama University, Kurashiki, 710-0046, Japan.

Faculty of Sciences, University of South Bohemia in Ceske Budejovice, Ceske Budejovice, Czech Republic.

出版信息

Physiol Plant. 2017 Jan;159(1):120-128. doi: 10.1111/ppl.12508. Epub 2016 Oct 2.

DOI:10.1111/ppl.12508

PMID:27595571

Abstract

A barley (Hordeum vulgare) plasma membrane type aquaporin, HvPIP2;5, was identified as an H O permeable aquaporin among 21 barley and rice PIPs examined in the heterologous expression system using Saccharomyces cerevisiae. Four TIPs were also detected as H O -transporting aquaporins among 15 barley and rice TIPs. Influx of H O into yeast cells expressing HvPIP2;5 was determined with a florescent-dye-based assay. Indirect immunofluorescence indicated that the expression of HvPIP2;5 protein was ubiquitous in root tissues, and was also weakly observed in leaf epidermal cells and cells in the vascular bundle. Point mutated variants of HvPIP2;5 were generated by the site-directed mutagenesis. Growth assays of yeast cells expressing these mutated HvPIP2;5 proteins suggested that Ser-126 in HvPIP2;5 has a large impact on H O transport with a minor influence on the HvPIP2;5-mediated water transport.

摘要

在使用酿酒酵母的异源表达系统中检测的21种大麦和水稻质膜内在蛋白（PIP）中，一种大麦（Hordeum vulgare）质膜型水通道蛋白HvPIP2;5被鉴定为可通透水的水通道蛋白。在15种大麦和水稻液泡膜内在蛋白（TIP）中，也检测到4种作为可转运水的水通道蛋白。采用基于荧光染料的分析方法测定了水流入表达HvPIP2;5的酵母细胞的情况。间接免疫荧光表明，HvPIP2;5蛋白在根组织中普遍表达，在叶表皮细胞和维管束细胞中也有微弱表达。通过定点诱变产生了HvPIP2;5的点突变变体。对表达这些突变HvPIP2;5蛋白的酵母细胞进行的生长分析表明，HvPIP2;5中的丝氨酸-126对水的运输有很大影响，而对HvPIP2;5介导的水分运输影响较小。

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在大麦中鉴定出一种水通道蛋白PIP对水具有通透性以及一个促进水运输的丝氨酸残基。

Identification of an H O permeable PIP aquaporin in barley and a serine residue promoting H O transport.

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