大规模系统分析揭示广泛的体内代谢物-蛋白质相互作用。
Extensive in vivo metabolite-protein interactions revealed by large-scale systematic analyses.
机构信息
Department of Genetics, Stanford University School of Medicine, Stanford, CA 94305-5120, USA.
出版信息
Cell. 2010 Nov 12;143(4):639-50. doi: 10.1016/j.cell.2010.09.048. Epub 2010 Oct 28.
Abstract
Natural small compounds comprise most cellular molecules and bind proteins as substrates, products, cofactors, and ligands. However, a large-scale investigation of in vivo protein-small metabolite interactions has not been performed. We developed a mass spectrometry assay for the large-scale identification of in vivo protein-hydrophobic small metabolite interactions in yeast and analyzed compounds that bind ergosterol biosynthetic proteins and protein kinases. Many of these proteins bind small metabolites; a few interactions were previously known, but the vast majority are new. Importantly, many key regulatory proteins such as protein kinases bind metabolites. Ergosterol was found to bind many proteins and may function as a general regulator. It is required for the activity of Ypk1, a mammalian AKT/SGK kinase homolog. Our study defines potential key regulatory steps in lipid biosynthetic pathways and suggests that small metabolites may play a more general role as regulators of protein activity and function than previously appreciated.
摘要
天然小分子化合物构成了大多数细胞分子,并作为底物、产物、辅因子和配体结合蛋白质。然而,尚未对体内蛋白质-小分子代谢物相互作用进行大规模研究。我们开发了一种质谱测定法,用于大规模鉴定酵母体内蛋白质-疏水性小分子代谢物相互作用,并分析了与麦角固醇生物合成蛋白和蛋白激酶结合的化合物。这些蛋白质中的许多都与小分子代谢物结合;有一些相互作用是先前已知的,但绝大多数都是新的。重要的是,许多关键调节蛋白,如蛋白激酶,也与代谢物结合。发现麦角固醇与许多蛋白质结合,可能作为一种通用调节剂发挥作用。它是哺乳动物 AKT/SGK 激酶同源物 Ypk1 活性所必需的。我们的研究定义了脂质生物合成途径中的潜在关键调节步骤,并表明小分子代谢物可能比以前认为的更普遍地作为蛋白质活性和功能的调节剂发挥作用。
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