Graschopf A, Stadler J A, Hoellerer M K, Eder S, Sieghardt M, Kohlwein S D, Schweyen R J
Vienna Biocenter, Institute of Microbiology and Genetics, University of Vienna, A-1030 Vienna, Austria.
J Biol Chem. 2001 May 11;276(19):16216-22. doi: 10.1074/jbc.M101504200. Epub 2001 Feb 20.
The Saccharomyces cerevisiae ALR1 (YOL130w) gene product Alr1p is the first known candidate for a Mg(2+) transport system in eukaryotic cells and is distantly related to the bacterial CorA Mg(2+) transporter family. Here we provide the first experimental evidence for the location of Alr1p in the yeast plasma membrane and for the tight control of its expression and turnover by Mg(2+). Using well characterized npi1 and end3 mutants deficient in the endocytic pathway, we demonstrate that Alr1 protein turnover is dependent on ubiquitination and endocytosis. Furthermore, cells lacking the vacuolar protease Pep4p accumulated Alr1p in the vacuole. Mutants lacking Alr1p (Deltaalr1) showed a 60% reduction of total intracellular Mg(2+) compared with the wild type and failed to grow in standard media. When starved of Mg(2+), mutant and wild-type cells had similar low levels of intracellular Mg(2+); but upon addition of Mg(2+), wild-type cells replenished the intracellular Mg(2+) pool within a few hours, whereas Deltaalr1 mutant cells did not. Expression of the bacterial Mg(2+) transporter CorA in the yeast Deltaalr1 mutant partially restored growth in standard media. The results are discussed in terms of Alr1p being a plasma membrane transporter with high selectivity for Mg(2+).
酿酒酵母ALR1(YOL130w)基因产物Alr1p是真核细胞中首个已知的镁离子转运系统候选蛋白,与细菌CorA镁离子转运蛋白家族有较远的亲缘关系。在此,我们首次提供了实验证据,证明Alr1p定位于酵母质膜,且其表达和周转受到镁离子的严格调控。利用内吞途径缺陷的特征明确的npi1和end3突变体,我们证明Alr1蛋白的周转依赖于泛素化和内吞作用。此外,缺乏液泡蛋白酶Pep4p的细胞在液泡中积累了Alr1p。与野生型相比,缺乏Alr1p的突变体(Δalr1)细胞内总镁离子含量降低了60%,并且在标准培养基中无法生长。当缺乏镁离子时,突变体和野生型细胞的细胞内镁离子水平都很低;但添加镁离子后,野生型细胞在数小时内补充了细胞内的镁离子池,而Δalr1突变体细胞则没有。在酵母Δalr1突变体中表达细菌镁离子转运蛋白CorA可部分恢复其在标准培养基中的生长。我们从Alr1p是一种对镁离子具有高选择性的质膜转运蛋白的角度对这些结果进行了讨论。
