Department of Botany, University of British Columbia, Vancouver, Canada, V6T 1Z4.
Plant Cell. 2010 Sep;22(9):3066-75. doi: 10.1105/tpc.110.077974. Epub 2010 Sep 24.
ATP binding cassette (ABC) transporters play diverse roles, including lipid transport, in all kingdoms. ABCG subfamily transporters that are encoded as half-transporters require dimerization to form a functional ABC transporter. Different dimer combinations that may transport diverse substrates have been predicted from mutant phenotypes. In Arabidopsis thaliana, mutant analyses have shown that ABCG11/WBC11 and ABCG12/CER5 are required for lipid export from the epidermis to the protective cuticle. The objective of this study was to determine whether ABCG11 and ABCG12 interact with themselves or each other using bimolecular fluorescence complementation (BiFC) and protein traffic assays in vivo. With BiFC, ABCG11/ABCG12 heterodimers and ABCG11 homodimers were detected, while ABCG12 homodimers were not. Fluorescently tagged ABCG11 or ABCG12 was localized in the stem epidermal cells of abcg11 abcg12 double mutants. ABCG11 could traffic to the plasma membrane in the absence of ABCG12, suggesting that ABCG11 is capable of forming flexible dimer partnerships. By contrast, ABCG12 was retained in the endoplasmic reticulum in the absence of ABCG11, indicating that ABCG12 is only capable of forming a dimer with ABCG11 in epidermal cells. Emerging themes in ABCG transporter biology are that some ABCG proteins are promiscuous, having multiple partnerships, while other ABCG transporters form obligate heterodimers for specialized functions.
三磷酸腺苷结合盒(ABC)转运蛋白在所有生物界中发挥着多样化的作用,包括脂质运输。作为半转运蛋白编码的 ABCG 亚家族转运蛋白需要二聚化才能形成功能性 ABC 转运蛋白。从突变表型预测到,不同的二聚体组合可能会转运不同的底物。在拟南芥中,突变分析表明,ABCG11/WBC11 和 ABCG12/CER5 对于从表皮向保护性角质层输出脂质是必需的。本研究的目的是使用双分子荧光互补(BiFC)和体内蛋白质运输测定来确定 ABCG11 和 ABCG12 是否与自身或彼此相互作用。通过 BiFC,检测到 ABCG11/ABCG12 异二聚体和 ABCG11 同二聚体,而未检测到 ABCG12 同二聚体。荧光标记的 ABCG11 或 ABCG12 定位于 abcg11 abcg12 双突变体的茎表皮细胞中。在没有 ABCG12 的情况下,ABCG11 能够转运到质膜,表明 ABCG11 能够形成灵活的二聚体伙伴关系。相比之下,在没有 ABCG11 的情况下,ABCG12 被保留在内质网中,表明 ABCG12 仅能在表皮细胞中与 ABCG11 形成二聚体。ABCG 转运蛋白生物学中的新兴主题是,一些 ABCG 蛋白是混杂的,具有多种伙伴关系,而其他 ABCG 转运蛋白则形成必需的异二聚体以发挥特定功能。