Metcalf P, Blum M, Freymann D, Turner M, Wiley D C
Nature. 1987;325(6099):84-6. doi: 10.1038/325084a0.
Antigenic variation in the African trypanosome is mediated through changes in the composition of the surface coat. By controlling expression of the major surface protein, the variant surface glycoprotein (VSG), from a repertoire of perhaps 1,000 different genes the organisms exhibit a series of antigenically distinct coats and evade the host's immune system. We have determined the 6 A resolution structure of a T. brucei variant surface glycoprotein, ILTat 1.24, using X-ray crystallography. The crystallized protein consists of the N-terminal two-thirds of the intact VSG which has a relative molecular mass (Mr) of 60,000 (60K). The structure, which includes a 90 A long alpha-helical bundle, is strikingly similar to that of the N-terminal fragment of VSG MITat 1.2 (ref. 4). Although most known VSG sequences show little similarity of primary sequence in the N-terminal domain, the similarity between the structure of a Class I (ILTat 1.24) and a Class II (MITat 1.2) VSG antigen suggests that VSGs may share a common tertiary structure.
非洲锥虫的抗原变异是通过表面被膜成分的变化介导的。通过控制主要表面蛋白即变异表面糖蛋白(VSG)从大约1000个不同基因库中的表达,这些生物体展示出一系列抗原性不同的被膜,并逃避免疫系统。我们利用X射线晶体学确定了布氏锥虫变异表面糖蛋白ILTat 1.24的6 Å分辨率结构。结晶的蛋白质由完整VSG的N端三分之二组成,其相对分子质量(Mr)为60,000(60K)。该结构包括一个90 Å长的α螺旋束,与VSG MITat 1.2的N端片段结构惊人地相似(参考文献4)。尽管大多数已知的VSG序列在N端结构域的一级序列上几乎没有相似性,但I类(ILTat 1.24)和II类(MITat 1.2)VSG抗原结构之间的相似性表明VSG可能共享一个共同的三级结构。
