Department of Molecular, Cellular, and Biomedical Sciences, Rudman Hall, University of New Hampshire, Durham, NH 03824, USA.
Department of Biochemistry and Molecular Biology, University of Southern Denmark, Campusvej 55, Odense M, DK 5230, Denmark.
Mol Genet Genomics. 2012 Sep;287(9):711-730. doi: 10.1007/s00438-012-0709-5. Epub 2012 Jul 27.
Poly(A) binding protein (PAB1) is involved in a number of RNA metabolic functions in eukaryotic cells and correspondingly is suggested to associate with a number of proteins. We have used mass spectrometric analysis to identify 55 non-ribosomal proteins that specifically interact with PAB1 from Saccharomyces cerevisiae. Because many of these factors may associate only indirectly with PAB1 by being components of the PAB1-mRNP structure, we additionally conducted mass spectrometric analyses on seven metabolically defined PAB1 deletion derivatives to delimit the interactions between these proteins and PAB1. These latter analyses identified 13 proteins whose associations with PAB1 were reduced by deleting one or another of PAB1's defined domains. Included in this list of 13 proteins were the translation initiation factors eIF4G1 and eIF4G2, translation termination factor eRF3, and PBP2, all of whose previously known direct interactions with specific PAB1 domains were either confirmed, delimited, or extended. The remaining nine proteins that interacted through a specific PAB1 domain were CBF5, SLF1, UPF1, CBC1, SSD1, NOP77, yGR250c, NAB6, and GBP2. In further study, UPF1, involved in nonsense-mediated decay, was confirmed to interact with PAB1 through the RRM1 domain. We additionally established that while the RRM1 domain of PAB1 was required for UPF1-induced acceleration of deadenylation during nonsense-mediated decay, it was not required for the more critical step of acceleration of mRNA decapping. These results begin to identify the proteins most likely to interact with PAB1 and the domains of PAB1 through which these contacts are made.
聚腺苷酸结合蛋白(PAB1)参与真核细胞中许多 RNA 代谢功能,相应地,它被认为与许多蛋白质相关联。我们使用质谱分析鉴定了 55 种非核糖体蛋白,它们特异性地与酿酒酵母的 PAB1 相互作用。由于许多这些因素可能仅通过作为 PAB1-mRNP 结构的组成部分间接与 PAB1 相关联,我们还对七个代谢定义的 PAB1 缺失衍生物进行了质谱分析,以限制这些蛋白质与 PAB1 之间的相互作用。这些后续分析确定了 13 种蛋白质,它们与 PAB1 的关联因删除 PAB1 的一个或另一个定义结构域而减少。在这 13 种蛋白质中包括翻译起始因子 eIF4G1 和 eIF4G2、翻译终止因子 eRF3 和 PBP2,它们以前已知的与特定 PAB1 结构域的直接相互作用都得到了确认、限制或扩展。通过特定的 PAB1 结构域相互作用的其余九个蛋白质是 CBF5、SLF1、UPF1、CBC1、SSD1、NOP77、yGR250c、NAB6 和 GBP2。在进一步的研究中,参与无意义介导的降解的 UPF1 被证实通过 RRM1 结构域与 PAB1 相互作用。我们还确定,虽然 PAB1 的 RRM1 结构域对于 UPF1 在无意义介导的降解过程中诱导的腺苷酸化加速是必需的,但对于更关键的 mRNA 脱帽加速步骤则不是必需的。这些结果开始确定最有可能与 PAB1 相互作用的蛋白质以及 PAB1 通过这些接触形成的结构域。
