State Key Laboratory of Membrane Biology, Beijing Advanced Innovation Center for Structural Biology, School of Life Sciences, Tsinghua University, Beijing 100084, China.
Tsinghua-Peking Joint Center for Life Sciences, Tsinghua University, Beijing 100084, China.
Cell Res. 2017 Oct;27(10):1275-1288. doi: 10.1038/cr.2017.104. Epub 2017 Aug 15.
As an indispensable molecular machine universal in all living organisms, the ribosome has been selected by evolution to be the natural target of many antibiotics and small-molecule inhibitors. High-resolution structures of pathogen ribosomes are crucial for understanding the general and unique aspects of translation control in disease-causing microbes. With cryo-electron microscopy technique, we have determined structures of the cytosolic ribosomes from two human parasites, Trichomonas vaginalis and Toxoplasma gondii, at resolution of 3.2-3.4 Å. Although the ribosomal proteins from both pathogens are typical members of eukaryotic families, with a co-evolution pattern between certain species-specific insertions/extensions and neighboring ribosomal RNA (rRNA) expansion segments, the sizes of their rRNAs are sharply different. Very interestingly, rRNAs of T. vaginalis are in size comparable to prokaryotic counterparts, with nearly all the eukaryote-specific rRNA expansion segments missing. These structures facilitate the dissection of evolution path for ribosomal proteins and RNAs, and may aid in design of novel translation inhibitors.
核糖体作为一种普遍存在于所有生物体中的不可或缺的分子机器,已经被进化选择成为许多抗生素和小分子抑制剂的天然靶标。病原体核糖体的高分辨率结构对于理解致病微生物中翻译控制的普遍和独特方面至关重要。通过冷冻电子显微镜技术,我们已经确定了两种人体寄生虫,阴道毛滴虫和刚地弓形虫的胞质核糖体的结构,分辨率为 3.2-3.4 Å。尽管来自两种病原体的核糖体蛋白都是典型的真核家族成员,具有某些物种特异性插入/延伸与相邻核糖体 RNA(rRNA)扩展片段之间的共同进化模式,但它们的 rRNA 大小却截然不同。非常有趣的是,阴道毛滴虫的 rRNA 大小与原核生物相当,几乎缺失了所有真核生物特异性 rRNA 扩展片段。这些结构有助于解析核糖体蛋白和 RNA 的进化路径,并可能有助于设计新型翻译抑制剂。
