Ma Xiaoju, Yang Chunxing, Alexandrov Andrei, Grayhack Elizabeth J, Behm-Ansmant Isabelle, Yu Yi-Tao
Department of Biochemistry and Biophysics, University of Rochester Medical Center, Rochester, NY 14642, USA.
EMBO J. 2005 Jul 6;24(13):2403-13. doi: 10.1038/sj.emboj.7600718. Epub 2005 Jun 16.
Yeast U2 small nuclear RNA (snRNA) contains three pseudouridines (Psi35, Psi42, and Psi44). Pus7p and Pus1p catalyze the formation of Psi35 and Psi44, respectively, but the mechanism of Psi42 formation remains unclear. Using a U2 substrate containing a single (32)P radiolabel at position 42, we screened a GST-ORF library for pseudouridylase activity. Surprisingly, we found a Psi42-specific pseudouridylase activity that coincided with Nhp2p, a protein component of a Box H/ACA sno/scaRNP (small nucleolar/Cajal body-specific ribonucleoprotein). When isolated by tandem affinity purification (TAP), the other protein components of the H/ACA sno/scaRNP also copurified with the pseudouridylase activity. Micrococcal nuclease-treated TAP preparations were devoid of pseudouridylase activity; however, activity was restored upon addition of RNAs from TAP preparations. Pseudouridylation reconstitution using RNAs from a Box H/ACA RNA library identified snR81, a snoRNA known to guide rRNA pseudouridylation, as the Psi42-specific guide RNA. Using the snR81-deletion strain, Nhp2p- or Cbf5p-conditional depletion strain, and a cbf5 mutation strain, we further demonstrated that the pseudouridylase activity is dependent on snR81 snoRNP in vivo. Our data indicate that snRNA pseudouridylation can be catalyzed by both RNA-dependent and RNA-independent mechanisms.
酵母U2小核RNA(snRNA)含有三个假尿苷(Ψ35、Ψ42和Ψ44)。Pus7p和Pus1p分别催化Ψ35和Ψ44的形成,但Ψ42形成的机制仍不清楚。我们使用在第42位含有单个(32)P放射性标记的U2底物,筛选了一个GST-ORF文库的假尿苷酰化酶活性。令人惊讶的是,我们发现了一种与Nhp2p一致的Ψ42特异性假尿苷酰化酶活性,Nhp2p是Box H/ACA sno/scaRNP(小核仁/卡哈尔体特异性核糖核蛋白)的一种蛋白质成分。当通过串联亲和纯化(TAP)分离时,H/ACA sno/scaRNP的其他蛋白质成分也与假尿苷酰化酶活性共纯化。微球菌核酸酶处理的TAP制剂没有假尿苷酰化酶活性;然而,加入TAP制剂中的RNA后活性得以恢复。使用来自Box H/ACA RNA文库的RNA进行假尿苷酰化重建,确定snR81(一种已知指导rRNA假尿苷酰化的snoRNA)为Ψ42特异性指导RNA。使用snR81缺失菌株、Nhp2p或Cbf5p条件性缺失菌株以及cbf5突变菌株,我们进一步证明了在体内假尿苷酰化酶活性依赖于snR81 snoRNP。我们的数据表明,snRNA假尿苷酰化可以由RNA依赖性和RNA非依赖性机制催化。