Muller S J, Caradonna S
Department of Molecular Biology, University of Medicine and Dentistry of New Jersey, School of Osteopathic Medicine, Stratford 08084.
J Biol Chem. 1993 Jan 15;268(2):1310-9.
The predicted amino acid sequence of a human cDNA encoding uracil-DNA glycosylase activity shows striking similarity to the cyclin protein family. To characterize the expression of this DNA repair enzyme, we have isolated the corresponding genomic clone. This gene is contained within 4.2 kilobases and is composed of only two exons. Sequence analysis of the upstream region shows that it contains two cell cycle box (CCB) regulatory elements which are also found in yeast cyclin genes. Deletional analysis of the promoter reveals the presence of a repressor region located from position -812 to -603. An inverted CCB element (alpha-CCB) and an SP1-like binding site are contained within this region. When uracil-DNA glycosylase mRNA levels are examined in vivo, a 2-3-fold increase is associated with G1 phase in both HeLa S3 and WI38 cells. To examine the role of the 209-base pair repressor region in mediating cell cycle regulation, this fragment was used in gel shift assays with cellular extracts prepared from various stages of the cell cycle. Several specific complexes are formed during S and G2 phases which are not present during M and G1 phases. Two of the complexes are the result of alpha-CCB binding as they can be specifically disrupted by the addition of an oligonucleotide containing the alpha-CCB binding site. Immunoprecipitation studies reveal that uracil-DNA glycosylase protein levels are also elevated during G1 phase. Additionally, we show that the 36-kDa uracil-DNA glycosylase protein is turned over during the course of one cell cycle. These results demonstrate coordinate regulation of uracil-DNA glycosylase at both the transcriptional and the post-transcriptional levels as a function of the cell cycle.
一个编码尿嘧啶 - DNA糖基化酶活性的人类cDNA的预测氨基酸序列与细胞周期蛋白家族显示出惊人的相似性。为了表征这种DNA修复酶的表达,我们分离了相应的基因组克隆。该基因包含在4.2千碱基内,仅由两个外显子组成。对上游区域的序列分析表明,它包含两个细胞周期框(CCB)调控元件,在酵母细胞周期蛋白基因中也能找到。对启动子的缺失分析揭示了一个位于 - 812至 - 603位置的抑制区域的存在。该区域包含一个反向CCB元件(α-CCB)和一个SP1样结合位点。当在体内检测尿嘧啶 - DNA糖基化酶mRNA水平时,在HeLa S3和WI38细胞中,G1期与之相关的水平会增加2 - 3倍。为了研究209碱基对抑制区域在介导细胞周期调控中的作用,该片段用于凝胶迁移实验,所用细胞提取物来自细胞周期的不同阶段。在S期和G2期形成了几个特定的复合物,而在M期和G1期不存在。其中两个复合物是α-CCB结合的结果,因为加入含有α-CCB结合位点的寡核苷酸可以特异性地破坏它们。免疫沉淀研究表明,尿嘧啶 - DNA糖基化酶蛋白水平在G1期也会升高。此外,我们表明36 kDa的尿嘧啶 - DNA糖基化酶蛋白在一个细胞周期过程中会更新。这些结果表明,尿嘧啶 - DNA糖基化酶在转录和转录后水平上均作为细胞周期的函数受到协调调控。
