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异二聚体神经毒性磷脂酶A2——来自新确定物种黑眉蝰蛇毒液的首批蛋白质:毒液成分在蝰蛇系统分类学中的意义

Heterodimeric neurotoxic phospholipases A2--the first proteins from venom of recently established species Vipera nikolskii: implication of venom composition in viper systematics.

作者信息

Ramazanova Anna S, Zavada Larisa L, Starkov Vladislav G, Kovyazina Irina V, Subbotina Tatyana F, Kostyukhina Ekaterina E, Dementieva Irina N, Ovchinnikova Tatiana V, Utkin Yuri N

机构信息

Shemyakin-Ovchinnikov Institute of Bioorganic Chemistry, Russian Academy of Sciences, ul. Miklukho-Maklaya 16/10, Moscow 117997, Russian Federation.

出版信息

Toxicon. 2008 Mar 15;51(4):524-37. doi: 10.1016/j.toxicon.2007.11.001. Epub 2007 Nov 9.

DOI:10.1016/j.toxicon.2007.11.001
PMID:18083205
Abstract

For the first time the venom of recently established viper species Vipera nikolskii was fractionated and two heterodimeric phospholipases A(2) (HDP-1 and HDP-2) were isolated. Isolation of HDP-1 and HDP-2 is the first indication of the presence of two heterodimeric phospholipases A(2) in the venom of one viper species. When tested on the frog neuromuscular junction, isolated proteins affected neuromuscular transmission acting presynaptically. Using RP-HPLC, each heterodimer was separated into two monomeric subunits: basic phospholipase A(2) (HDP-1P and HDP-2P) and acidic component without enzymatic activity (HDP-In). The complete primary structures of subunits were deduced from corresponding sequences of cDNAs. The determined amino acid sequences were homologous to those of vipoxin from Vipera ammodytes and vaspin from Vipera aspis. Similar proteins were not found earlier in the well-studied venom of Vipera berus, the species from which V. nikolskii was recently separated. Our finding supports at the biochemical level the correctness of the establishment of V. nikolskii as an independent species. The finding of similar proteins (HDPs and vipoxin) in geographically remote species (V. nikolskii and V. ammodytes) corroborates the hypothesis about the pre-existence of genes encoding these proteins in all true viper species and their expression under certain conditions.

摘要

首次对新确定的蝰蛇物种——尼古拉斯蝰蛇(Vipera nikolskii)的毒液进行了分级分离,并分离出了两种异源二聚体磷脂酶A₂(HDP-1和HDP-2)。HDP-1和HDP-2的分离首次表明在一种蝰蛇的毒液中存在两种异源二聚体磷脂酶A₂。在青蛙神经肌肉接头处进行测试时,分离出的蛋白质通过突触前作用影响神经肌肉传递。使用反相高效液相色谱法(RP-HPLC),每种异源二聚体被分离成两个单体亚基:碱性磷脂酶A₂(HDP-1P和HDP-2P)和无酶活性的酸性成分(HDP-In)。从相应的cDNA序列推导了亚基的完整一级结构。所确定的氨基酸序列与极北蝰(Vipera ammodytes)的毒蝰蛋白(vipoxin)和角蝰(Vipera aspis)的血管紧张素原酶(vaspin)的氨基酸序列同源。在最近从其分离出尼古拉斯蝰蛇的极北蝰(Vipera berus)经过充分研究的毒液中,此前未发现类似的蛋白质。我们的发现从生化水平上支持了将尼古拉斯蝰蛇确立为独立物种的正确性。在地理上相距遥远的物种(尼古拉斯蝰蛇和极北蝰)中发现类似的蛋白质(HDPs和毒蝰蛋白),证实了关于编码这些蛋白质的基因在所有真正的蝰蛇物种中预先存在并在某些条件下表达的假说。

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