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玉米水通道蛋白中属于质膜内在蛋白PIP2组的跨膜螺旋3中的一个新的LxxxA基序是其转运到质膜所必需的。

A new LxxxA motif in the transmembrane Helix3 of maize aquaporins belonging to the plasma membrane intrinsic protein PIP2 group is required for their trafficking to the plasma membrane.

作者信息

Chevalier Adrien S, Bienert Gerd Patrick, Chaumont François

机构信息

Institut des Sciences de la Vie, Université catholique de Louvain, B-1348 Louvain-la-Neuve, Belgium.

Institut des Sciences de la Vie, Université catholique de Louvain, B-1348 Louvain-la-Neuve, Belgium

出版信息

Plant Physiol. 2014 Sep;166(1):125-38. doi: 10.1104/pp.114.240945. Epub 2014 Jul 2.

DOI:10.1104/pp.114.240945
PMID:24989232
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4149701/
Abstract

Aquaporins play important roles in maintaining plant water status under challenging environments. The regulation of aquaporin density in cell membranes is essential to control transcellular water flows. This work focuses on the maize (Zea mays) plasma membrane intrinsic protein (ZmPIP) aquaporin subfamily, which is divided into two sequence-related groups (ZmPIP1s and ZmPIP2s). When expressed alone in mesophyll protoplasts, ZmPIP2s are efficiently targeted to the plasma membrane, whereas ZmPIP1s are retained in the endoplasmic reticulum (ER). A protein domain-swapping approach was utilized to demonstrate that the transmembrane domain3 (TM3), together with the previously identified N-terminal ER export diacidic motif, account for the differential localization of these proteins. In addition to protoplasts, leaf epidermal cells transiently transformed by biolistic particle delivery were used to confirm and refine these results. By generating artificial proteins consisting of a single transmembrane domain, we demonstrated that the TM3 of ZmPIP1;2 or ZmPIP2;5 discriminates between ER and plasma membrane localization, respectively. More specifically, a new LxxxA motif in the TM3 of ZmPIP2;5, which is highly conserved in plant PIP2s, was shown to regulate its anterograde routing along the secretory pathway, particularly its export from the ER.

摘要

水通道蛋白在具有挑战性的环境下维持植物水分状态方面发挥着重要作用。调节细胞膜中水通道蛋白的密度对于控制跨细胞水流至关重要。这项工作聚焦于玉米(Zea mays)质膜内在蛋白(ZmPIP)水通道蛋白亚家族,该亚家族分为两个序列相关的组(ZmPIP1s和ZmPIP2s)。当单独在叶肉原生质体中表达时,ZmPIP2s能有效地靶向质膜,而ZmPIP1s则保留在内质网(ER)中。采用蛋白质结构域交换方法来证明跨膜结构域3(TM3)与先前鉴定的N端内质网输出双酸性基序共同导致了这些蛋白质的差异定位。除了原生质体,通过生物弹丸递送瞬时转化的叶片表皮细胞也被用于证实和完善这些结果。通过生成由单个跨膜结构域组成的人工蛋白质,我们证明了ZmPIP1;2或ZmPIP2;5的TM3分别区分内质网和质膜定位。更具体地说,ZmPIP2;5的TM3中一个新的LxxxA基序在植物PIP2s中高度保守,它被证明可调节其沿分泌途径的正向转运,特别是其从内质网的输出。

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