Serin G, Joseph G, Faucher C, Ghisolfi L, Bouche G, Amalric F, Bouvet P
Laboratoire de Biologie Moléculaire Eucaryote, Institut de Biologie Cellulaire et de Génétique du CNRS, Toulouse, France.
Biochimie. 1996;78(6):530-8. doi: 10.1016/0300-9084(96)84759-6.
Nucleolin, a major RNA binding protein of the nucleolus is found associated mainly to the pre-ribosomal particles and is absent from the cytoplasmic mature ribosomes. The role of this protein in ribosome biogenesis remains largely unknown, and is likely to be reflected by its RNA binding properties. Nucleolin contains in its central domain four RNA recognition motifs (RRM, also called RBD for RNA binding domain) which are conserved among different species. RNA binding studies have revealed that nucleolin interacts specifically with a short stem loop structure called NRE (nucleolin recognition element). We show that nucleolin extracted from human, hamster and mouse cells interacts with the same specificity and affinity to a mouse 5'ETS (external transcribed spacer) RNA fragment which contains a NRE motif. A similar structure within the human 5'ETS is also efficiently recognized by mouse nucleolin. We identified putative NRE not only in the 5'ETS but also in the 3'ETS, ITS (internal transcribed spacer) and in the 18S and 28S RNA sequences. This is in agreement with in vivo cross-linking data and a previous immunocytological analysis of ribosomal transcription units. Interestingly, we found that all the NRE localized in the 28S region are within the variable domains. Despite considerable sequence divergence of these domains, several of the NRE have sequences perfectly conserved between these two species. This suggests that these nucleolin binding sites might be functionally important, in particular for ribosome biogenesis.
核仁素是核仁中的一种主要RNA结合蛋白,主要与核糖体前体颗粒相关,而在细胞质成熟核糖体中不存在。该蛋白在核糖体生物发生中的作用在很大程度上仍然未知,可能由其RNA结合特性反映出来。核仁素在其中心结构域含有四个RNA识别基序(RRM,也称为RNA结合结构域的RBD),这些基序在不同物种中是保守的。RNA结合研究表明,核仁素与一种称为NRE(核仁素识别元件)的短茎环结构特异性相互作用。我们发现,从人、仓鼠和小鼠细胞中提取的核仁素与含有NRE基序的小鼠5'ETS(外部转录间隔区)RNA片段具有相同的特异性和亲和力。人5'ETS内的类似结构也能被小鼠核仁素有效识别。我们不仅在5'ETS中,而且在3'ETS、ITS(内部转录间隔区)以及18S和28S RNA序列中鉴定出了推定的NRE。这与体内交联数据以及先前对核糖体转录单位的免疫细胞化学分析一致。有趣的是,我们发现所有位于28S区域的NRE都在可变结构域内。尽管这些结构域的序列差异很大,但其中一些NRE在这两个物种之间具有完全保守的序列。这表明这些核仁素结合位点可能在功能上很重要,特别是对于核糖体生物发生。
