氧化诱导的纤维蛋白原多肽链修饰。

Oxidation-induced modification of the fibrinogen polypeptide chains.

作者信息

Bychkova A V, Vasilyeva A D, Bugrova A E, Indeykina M I, Kononikhin A S, Nikolaev E N, Konstantinova M L, Rosenfeld M A

机构信息

Emanuel Institute of Biochemical Physics, Russian Academy of Sciences, Moscow, Russia.

Institute for Energy Problems of Chemical Physics, Russian Academy of Sciences, Moscow, Russia.

出版信息

Dokl Biochem Biophys. 2017 May;474(1):173-177. doi: 10.1134/S1607672917030115. Epub 2017 Jul 20.

DOI:10.1134/S1607672917030115

PMID:28726089

Abstract

By using the mass-spectrometry method, the oxidative modifications of the fibrinogen Aα, Bβ, and γ polypeptide chains induced by its oxidation have been studied. The αC-region has been proven to be the most vulnerable target for the oxidizer (ozone) as compared with the other structural elements of the Aα chain. The Bβ chain mapping shows that the oxidative sites are localized within all the structural elements of the chain in which the β-nodule exhibits high susceptibility to oxidation. The γ chains are the least vulnerable to the oxidizer action. The results obtained demonstrate convincingly that the self-assembly centers dealing with interactions of knob "A": hole "a" are not involved in oxidative modification. It is concluded that the numerous oxidative sites revealed are mainly responsible for inhibiting lateral aggregation of protofibrils. The part of amino acid residues subjected to oxidation is supposed to carry out the antioxidant function.

摘要

通过使用质谱法，对纤维蛋白原Aα、Bβ和γ多肽链氧化诱导的氧化修饰进行了研究。与Aα链的其他结构元件相比，αC区域已被证明是氧化剂（臭氧）最易攻击的靶点。Bβ链图谱显示，氧化位点位于该链的所有结构元件内，其中β结节对氧化表现出高度敏感性。γ链最不易受到氧化剂作用的影响。所得结果令人信服地表明，处理旋钮“A”：孔“a”相互作用的自组装中心不参与氧化修饰。得出的结论是，所揭示的众多氧化位点主要负责抑制原纤维的横向聚集。遭受氧化的部分氨基酸残基被认为具有抗氧化功能。

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氧化诱导的纤维蛋白原多肽链修饰。

Oxidation-induced modification of the fibrinogen polypeptide chains.

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