2'-5'-连接三腺苷酸作为蛋白激酶活性调节剂

Journal of proteomics & bioinformatics Pub Date : 2017-12-28 DOI:10.4172/JPB.1000457

S. Oy, Kukharenko Ap, O. Kozlov, Dubey Iy, Tkachuk Zy

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引用次数: 4

摘要

2'-5'链三腺苷酸酯是一类低分子化合物，能够调节各种细胞功能。它们的主要功能是激活核糖核酸酶L——先天免疫的主要酶。它们的去磷酸化导致了这种功能的丧失，而这在另一方面赋予了它们一些新的、尚未被发现的能力。目的:研究去磷酸化2′-5′链tradenylates对蛋白激酶活性的浓度依赖性影响。方法:用放射性标记的ATP滴定蛋白激酶。然后用闪烁计数器测定放射性值。结果:我们发现2'-5'-linked能够通过改变它们可能切割的ATP的数量来改变各种蛋白激酶的生物活性。结论:我们认为这种作用可能发生在蛋白激酶结构的特异性变化上。

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2'-5'-Linked Triadenylates Act as Protein Kinase Activity Modulators

2'-5'-linked triadenylates present the class of low molecular compounds, capable of regulating various cell functions. Their main function is the activation of ribonuclease L – the main enzyme of the innate immunity. Their dephosphorylation results in loss of this function, which, on the other hand grants them a handful of new, yet undiscovered abilities. Aim: Study the concentration-dependend influence of dephosphorylated 2'-5'-linked tradenylates on the protein kinases activity. Methods: Protein kinases were titrated with radioactively labeled ATP. After that the radioactivity value was determined with the use of scintillation counter. Results: We have found out that 2'-5'-linked are capable of changing the biological activity of various protein kinases by altering the amount of ATP they can potentially cleave. Conclusions: We suggest that this effect could occur to the specific changes in protein kinases structure.

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Journal of proteomics & bioinformatics

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