Staschke K A, Richardson K K, Mabry T E, Baxter A J, Scheuring J C, Huffman D M, Smith W C, Richardson F C, Colacino J M
Lilly Research Laboratories, Indianapolis, IN 46285-0438, USA.
Nucleic Acids Res. 1996 Nov 1;24(21):4111-6. doi: 10.1093/nar/24.21.4111.
The thymidine analog, 1-(2-deoxy-2-fluoro-beta-D-arabino-furanosyl)-5-iodouracil (FIAU), is incorporated into DNA in cell culture and in vivo. To investigate the effect of incorporation of FIAU into DNA on the binding of transcription factors, oligonucleotide duplexes which bind specifically to activator protein 1 (AP-1) or to TFIID were synthesized and binding of these oligonucleotides to their respective proteins was studied using gel-shift analysis. When thymidine at position -3, -1, 1 or 7 (relative to the first thymidine of the core binding sequence) was replaced with FIAU, binding to AP-1 was approximately 82, 28, 86 and 51%, respectively, of the binding to the non-substituted oligonucleotide to AP-1. When thymidine at position 3 or 5 (each adjacent to the center of dyad symmetry) was replaced with FIAU, binding to AP-1 was abrogated. Oligonucleotides containing FIAU at positions -1, 3 or 5, were much less able to compete with radiolabeled wild-type oligonucleotides for binding to AP-1. In contrast, the presence of FIAU, depending on its location, resulted in the increased binding of TFIID to its consensus target DNA sequence. These results indicate that incorporation of FIAU into DNA may induce local conformational changes resulting in the altered ability of transcriptional factors to bind to their cognate DNA sequences. Additional studies demonstrated that the presence of FIAU at a position 5' to the cleavage site in the consensus sequence T*TAA (where * is the cleavage site) inhibited restriction of the oligomeric duplex by MseI.
胸苷类似物1-(2-脱氧-2-氟-β-D-阿拉伯呋喃糖基)-5-碘尿嘧啶(FIAU)在细胞培养和体内均可掺入DNA。为了研究FIAU掺入DNA对转录因子结合的影响,合成了与激活蛋白1(AP-1)或TFIID特异性结合的寡核苷酸双链体,并通过凝胶迁移分析研究了这些寡核苷酸与其各自蛋白质的结合情况。当核心结合序列第一个胸苷相对位置的-3、-1、1或7位的胸苷被FIAU取代时,与AP-1的结合分别约为与未取代寡核苷酸结合到AP-1的82%、28%、86%和51%。当位于二元对称中心相邻的3或5位的胸苷被FIAU取代时,与AP-1的结合被消除。在-1、3或5位含有FIAU的寡核苷酸与放射性标记的野生型寡核苷酸竞争结合AP-1的能力要弱得多。相反,FIAU的存在,取决于其位置,导致TFIID与其共有靶DNA序列的结合增加。这些结果表明,FIAU掺入DNA可能会诱导局部构象变化,导致转录因子与其同源DNA序列结合的能力改变。进一步的研究表明,在共有序列TTAA(其中为切割位点)中切割位点5'位置存在FIAU会抑制MseI对寡聚双链体的切割。