Kuehn G D, Affolter H U, Atmar V J, Seebeck T, Gubler U, Braun R
Proc Natl Acad Sci U S A. 1979 Jun;76(6):2541-5. doi: 10.1073/pnas.76.6.2541.
An acidic nucleolar phosphoprotein with a subunit M(r) of 70,000 was purified as an apparent dimer of 139,000 from isolated nuclei of the slime mold Physarum polycephalum. The protein was purified without the aid of strong dissociating agents after its selective phosphorylation in isolated nuclei by a polyamine-mediated reaction. Its amino acid composition resembled that of a nucleolar phosphoprotein from Novikoff hepatoma ascites cells. The phosphoprotein stimulated rRNA synthesis 5-fold by RNA polymerase I within a nucleolar, ribosomal deoxyribonucleoprotein complex isolated from nucleoli of P. polycephalum. It was also identified as a component of the complex. It bound with high affinity and specificity to the palindromic ribosomal DNA of 38 x 10(6)M(r) from P. polycephalum, which contained two coding sequences for 5.8S, 19S, and 26S rRNA. It also bound to three fragments of ribosomal DNA of M(r) 21.2 x 10(6), 17.1 x 10(6), and 8.1 x 10(6), prepared by cleavage with restriction endonucleases HindIII, PstI, and BamHI, respectively. All of these fragments included the symmetry axis of the palindromic ribosomal DNA. The phosphoprotein that had been treated with alkaline phosphataseagarose to hydrolyze the phosphate groups did not stimulate transcription and did not bind to ribosomal DNA or to the restriction fragments indicated. We have thus isolated a specific phosphoprotein with the capacity to stimulate transcription of a specific set of genes in a eukaryote. These findings suggest that this phosphoprotein may specifically regulate functions of ribosomal DNA in a manner dependent on its degree of phosphorylation.
从多头绒泡菌的分离细胞核中纯化出一种酸性核仁磷蛋白,其亚基分子量为70,000,呈现为139,000的明显二聚体形式。该蛋白在分离细胞核中通过多胺介导的反应进行选择性磷酸化后,无需借助强解离剂即可纯化。其氨基酸组成与诺维科夫肝癌腹水细胞中的核仁磷蛋白相似。这种磷蛋白在从多头绒泡菌核仁分离出的核仁核糖体脱氧核糖核蛋白复合物中,能使RNA聚合酶I的rRNA合成增加5倍。它也被鉴定为该复合物的一个组分。它以高亲和力和特异性结合到来自多头绒泡菌的分子量为38×10(6)的回文核糖体DNA上,该DNA包含5.8S、19S和26S rRNA的两个编码序列。它还分别结合到通过用限制性内切酶HindIII、PstI和BamHI切割制备的分子量为21.2×10(6)、17.1×10(6)和8.1×10(6)的核糖体DNA的三个片段上。所有这些片段都包含回文核糖体DNA的对称轴。用碱性磷酸酶琼脂糖处理以水解磷酸基团后的磷蛋白不刺激转录,也不与核糖体DNA或所示的限制性片段结合。因此,我们分离出了一种具有刺激真核生物中特定基因转录能力的特异性磷蛋白。这些发现表明,这种磷蛋白可能以依赖于其磷酸化程度的方式特异性调节核糖体DNA的功能。