重组蓖麻毒素A链在2.3埃分辨率下的结构

Structure of recombinant ricin A chain at 2.3 A.

作者信息

Mlsna D, Monzingo A F, Katzin B J, Ernst S, Robertus J D

机构信息

Department of Chemistry and Biochemistry, University of Texas, Austin 78712.

出版信息

Protein Sci. 1993 Mar;2(3):429-35. doi: 10.1002/pro.5560020315.

DOI:10.1002/pro.5560020315

PMID:8453380

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2142378/

Abstract

The plant cytotoxin ricin is a heterodimer with a cell surface binding (B) chain and an enzymatically active A chain (RTA) known to act as a specific N-glycosidase. RTA must be separated from B chain to attack rRNA. The X-ray structure of ricin has been solved recently; here we report the structure of the isolated A chain expressed from a clone in Escherichia coli. This structure of wild-type rRTA has and will continue to serve as the parent compound for difference Fouriers used to assess the structure of site-directed mutants designed to analyze the mechanism of this medically and commercially important toxin. The structure of the recombinant protein, rRTA, is virtually identical to that seen previously for A chain in the heterodimeric toxin. Some minor conformational changes due to interactions with B chain and to crystal packing differences are described. Perhaps the most significant difference is the presence in rRTA of an additional active site water. This molecule is positioned to act as the ultimate nucleophile in the depurination reaction mechanism proposed by Monzingo and Robertus (1992, J. Mol. Biol. 227, 1136-1145).

摘要

植物细胞毒素蓖麻毒素是一种异源二聚体，由一个细胞表面结合（B）链和一个具有酶活性的A链（RTA）组成，已知RTA可作为一种特异性N - 糖苷酶。RTA必须与B链分离才能攻击rRNA。蓖麻毒素的X射线结构最近已得到解析；在此我们报告从大肠杆菌中的一个克隆表达的分离A链的结构。野生型rRTA的这种结构已经并将继续作为用于评估为分析这种在医学和商业上重要毒素的作用机制而设计的定点突变体结构的差分傅里叶变换的母体化合物。重组蛋白rRTA的结构与之前在异源二聚体毒素中看到的A链结构几乎相同。描述了由于与B链的相互作用以及晶体堆积差异导致的一些微小构象变化。也许最显著的差异是rRTA中存在一个额外的活性位点水分子。该分子的位置使其在Monzingo和Robertus（1992年，《分子生物学杂志》227卷，1136 - 1145页）提出的脱嘌呤反应机制中充当最终亲核试剂。

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本文引用的文献

Crystallographic R factor refinement by molecular dynamics.利用分子动力学进行晶体学 R 因子精修。

Science. 1987 Jan 23;235(4787):458-60. doi: 10.1126/science.235.4787.458.

Multiwire area X-ray diffractometers.多丝区域X射线衍射仪。

Methods Enzymol. 1985;114:416-52. doi: 10.1016/0076-6879(85)14029-2.

The three-dimensional structure of ricin at 2.8 A.蓖麻毒素在2.8埃分辨率下的三维结构。

J Biol Chem. 1987 Apr 15;262(11):5398-403.

Crystallization of ricin A chain obtained from a cloned gene expressed in Escherichia coli.从在大肠杆菌中表达的克隆基因获得的蓖麻毒素A链的结晶。

J Biol Chem. 1987 Jan 5;262(1):19-20.

The RNA N-glycosidase activity of ricin A-chain. The characteristics of the enzymatic activity of ricin A-chain with ribosomes and with rRNA.蓖麻毒素A链的RNA N-糖苷酶活性。蓖麻毒素A链与核糖体及rRNA的酶活性特征。

J Biol Chem. 1988 Jun 25;263(18):8735-9.

High mobility of N-terminal parts of A and B subunits of ricin.蓖麻毒素A和B亚基N端部分的高迁移率。

J Biomol Struct Dyn. 1989 Jun;6(6):1061-70. doi: 10.1080/07391102.1989.10506536.

Constrained-restrained least-squares (CORELS) refinement of proteins and nucleic acids.蛋白质和核酸的约束-限制最小二乘法（CORELS）精修

Methods Enzymol. 1985;115:271-303. doi: 10.1016/0076-6879(85)15022-6.

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