Stochaj U, Héjazi M, Belhumeur P
Physiology Department, McGill University, 3655 Drummond Street, Montreal, PQ, Canada H3G 1Y6.
Biochem J. 1998 Feb 15;330 ( Pt 1)(Pt 1):421-7. doi: 10.1042/bj3300421.
The small GTPase Gsp1p of Saccharomyces cerevisiae and its homologue Ran play essential roles in several nuclear processes, such as cell-cycle progression, nuclear organization and nucleocytoplasmic traffic of RNA and proteins. Gsp1p/Ran is an abundant nuclear protein that interacts with different cytoplasmic and nuclear factors. Several of the previously identified Ran-binding proteins located at the nuclear-pore complex carry a specific Ran-binding domain. So far, direct interactions between the GTPase and other proteins have been mostly characterized in higher eukaryotes. Here we report that the yeast protein Gsp1p can directly bind to the nucleoporin Nsp1p in vitro. Nsp1p does not contain a Ran-binding domain and therefore represents a distinct type of nucleoporin that associates with Gsp1p. We demonstrate that the middle domain of Nsp1p is sufficient to mediate this interaction. Importantly, we show that a conserved cluster of positively charged amino acid residues of Gsp1p located at positions 142-144 is essential for the binding reaction. Thus we have identified Nsp1p as a new candidate protein located at the nuclear pore complex of the yeast S. cerevisiae that interacts directly with Gsp1p. We further demonstrate that both Gsp1p and Nsp1p are components of larger protein complexes in vivo, supporting the idea that the association between both proteins takes place in growing cells.
酿酒酵母的小GTP酶Gsp1p及其同源物Ran在多个核过程中发挥着重要作用,如细胞周期进程、核组织以及RNA和蛋白质的核质运输。Gsp1p/Ran是一种丰富的核蛋白,可与不同的细胞质和核因子相互作用。先前鉴定出的位于核孔复合体的几种Ran结合蛋白都带有特定的Ran结合结构域。到目前为止,GTP酶与其他蛋白质之间的直接相互作用大多是在高等真核生物中得到表征的。在此我们报告,酵母蛋白Gsp1p在体外可直接与核孔蛋白Nsp1p结合。Nsp1p不包含Ran结合结构域,因此代表了一种与Gsp1p相关的独特类型的核孔蛋白。我们证明,Nsp1p的中间结构域足以介导这种相互作用。重要的是,我们表明位于142 - 144位的Gsp1p保守的带正电荷氨基酸残基簇对于结合反应至关重要。因此,我们已将Nsp1p鉴定为酿酒酵母核孔复合体中一种新的候选蛋白,它可直接与Gsp1p相互作用。我们进一步证明,Gsp1p和Nsp1p在体内都是更大蛋白质复合体的组成部分,这支持了两种蛋白之间的结合发生在生长中的细胞中的观点。