通过内源性反应性初级糖酵解代谢物进行功能性赖氨酸修饰。
Functional lysine modification by an intrinsically reactive primary glycolytic metabolite.
机构信息
The Skaggs Institute for Chemical Biology and Department of Chemical Physiology, The Scripps Research Institute, La Jolla, CA 92037, USA.
出版信息
Science. 2013 Aug 2;341(6145):549-53. doi: 10.1126/science.1238327.
Abstract
The posttranslational modification of proteins and their regulation by metabolites represent conserved mechanisms in biology. At the confluence of these two processes, we report that the primary glycolytic intermediate 1,3-bisphosphoglycerate (1,3-BPG) reacts with select lysine residues in proteins to form 3-phosphoglyceryl-lysine (pgK). This reaction, which does not require enzyme catalysis, but rather exploits the electrophilicity of 1,3-BPG, was found by proteomic profiling to be enriched on diverse classes of proteins and prominently in or around the active sites of glycolytic enzymes. pgK modifications inhibit glycolytic enzymes and, in cells exposed to high glucose, accumulate on these enzymes to create a potential feedback mechanism that contributes to the buildup and redirection of glycolytic intermediates to alternate biosynthetic pathways.
摘要
蛋白质的翻译后修饰及其代谢物的调节是生物学中保守的机制。在这两个过程的交汇处,我们报告说,主要的糖酵解中间产物 1,3-二磷酸甘油酸(1,3-BPG)与蛋白质中的特定赖氨酸残基反应,形成 3-磷酸甘油酰-赖氨酸(pgK)。这种反应不需要酶催化,而是利用 1,3-BPG 的亲电性,通过蛋白质组学分析发现,它富集在多种蛋白质类别上,并且在糖酵解酶的活性部位或周围显著富集。pgK 修饰抑制糖酵解酶,并且在暴露于高葡萄糖的细胞中,积累在这些酶上,形成一种潜在的反馈机制,有助于糖酵解中间产物的积累和重新定向到替代的生物合成途径。
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