家蚕血淋巴中一种意外蛋白质复合物的晶体学鉴定。

Crystallographic identification of an unexpected protein complex in silkworm haemolymph.

作者信息

Pietrzyk Agnieszka J, Bujacz Anna, Mueller-Dieckmann Jochen, Łochynska Malgorzata, Jaskolski Mariusz, Bujacz Grzegorz

机构信息

Center for Biocrystallographic Research, Institute of Bioorganic Chemistry, Polish Academy of Sciences, Noskowskiego 12/14, 61-704 Poznan, Poland.

出版信息

Acta Crystallogr D Biol Crystallogr. 2013 Dec;69(Pt 12):2353-64. doi: 10.1107/S0907444913021823. Epub 2013 Nov 19.

DOI:10.1107/S0907444913021823

PMID:24311577

Abstract

The first crystal structure of a complex formed by two storage proteins, SP2 and SP3, isolated from their natural source, mulberry silkworm (Bombyx mori L.) haemolymph, has been determined. The structure was solved by molecular replacement using arylphorin, a protein rich in aromatic amino-acid residues, from oak silkworm as the initial model. The quality of the electron-density maps obtained from the X-ray diffraction experiment allowed the authors to detect that the investigated crystal structure was composed of two different arylphorins: SP2 and SP3. This discovery was confirmed by N-terminal sequencing. SP2 has been extensively studied previously, whereas only a few reports on SP3 are available. However, to date no structural studies have been reported for these proteins. These studies revealed that SP2 and SP3 exist in the silkworm body as a heterohexamer formed by one SP2 trimer and one SP3 trimer. The overall fold, consisting of three haemocyanin-like subdomains, of SP2 and SP3 is similar. Both proteins contain a conserved N-glycosylation motif in their structures.

摘要

从天然来源家蚕（Bombyx mori L.）血淋巴中分离出的两种储存蛋白SP2和SP3形成的复合物的首个晶体结构已被确定。该结构通过分子置换法解析，使用来自柞蚕的富含芳香族氨基酸残基的蛋白芳基脂蛋白作为初始模型。X射线衍射实验获得的电子密度图质量使作者能够检测到所研究的晶体结构由两种不同的芳基脂蛋白组成：SP2和SP3。这一发现通过N端测序得到证实。SP2此前已被广泛研究，而关于SP3的报道较少。然而，迄今为止尚未有关于这些蛋白的结构研究报道。这些研究表明，SP2和SP3在蚕体内以由一个SP2三聚体和一个SP3三聚体形成的异源六聚体形式存在。SP2和SP3由三个血蓝蛋白样亚结构域组成的整体折叠结构相似。两种蛋白在其结构中都含有一个保守的N-糖基化基序。

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家蚕血淋巴中一种意外蛋白质复合物的晶体学鉴定。

Crystallographic identification of an unexpected protein complex in silkworm haemolymph.

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