Chan I-San, Fedorova Anna V, Shin Jumi A
Department of Chemistry, University of Toronto, Mississauga, Ontario, Canada L5L 1C6.
Biochemistry. 2007 Feb 13;46(6):1663-71. doi: 10.1021/bi0617613.
We previously reported that a basic region/leucine zipper (bZIP) protein, a hybrid of the GCN4 basic region and C/EBP leucine zipper, not only recognizes cognate target sites AP-1 (5'-TGACTCA-3') and cAMP-response element (CRE) (5'-TGACGTCA-3') but also binds selectively to noncognate DNA sites: C/EBP (CCAAT/enhancer binding protein, 5'-TTGCGCAA), XRE1 (xenobiotic response element, 5'-TTGCGTGA), HRE (HIF response element, 5'-GCACGTAG), and E-box (5'-CACGTG). In this work, we used electrophoretic mobility shift assay (EMSA) and circular dichroism (CD) for more extensive characterization of the binding of wt bZIP dimer to noncognate sites as well as full- and half-site derivatives, and we examined changes in flanking sequences. Quantitative EMSA titrations were used to measure dissociation constants of this hybrid, wt bZIP, to DNA duplexes: Full-site binding affinities gradually decrease from cognate sites AP-1 and CRE with Kd values of 13 and 12 nM, respectively, to noncognate sites with Kd values of 120 nM to low microM. DNA-binding selectivity at half sites is maintained; however, half-site binding affinities sharply decrease from the cognate half site (Kd = 84 nM) to noncognate half sites (all Kd values > 2 microM). CD shows that comparable levels of alpha-helical structure are induced in wt bZIP upon binding to cognate AP-1 or noncognate sites. Thus, noncognate sites may contribute to preorganization of stable protein structure before binding target DNA sites. This work demonstrates that the bZIP scaffold may be a powerful tool in the design of small, alpha-helical proteins with desired DNA recognition properties.
我们之前报道过,一种碱性区域/亮氨酸拉链(bZIP)蛋白,即GCN4碱性区域与C/EBP亮氨酸拉链的杂交体,不仅能识别同源靶位点AP-1(5'-TGACTCA-3')和环磷酸腺苷反应元件(CRE)(5'-TGACGTCA-3'),还能选择性地结合非同源DNA位点:C/EBP(CCAAT/增强子结合蛋白,5'-TTGCGCAA)、XRE1(外源性反应元件,5'-TTGCGTGA)、HRE(低氧诱导因子反应元件,5'-GCACGTAG)和E盒(5'-CACGTG)。在这项工作中,我们使用电泳迁移率变动分析(EMSA)和圆二色性(CD)对野生型bZIP二聚体与非同源位点以及全位点和半位点衍生物的结合进行更广泛的表征,并研究侧翼序列的变化。定量EMSA滴定用于测量这种杂交体野生型bZIP与DNA双链体的解离常数:全位点结合亲和力从同源位点AP-1和CRE逐渐降低,其Kd值分别为13和12 nM,到非同源位点的Kd值为120 nM至低微摩尔浓度。半位点的DNA结合选择性得以维持;然而,半位点结合亲和力从同源半位点(Kd = 84 nM)急剧下降到非同源半位点(所有Kd值>2 microM)。CD显示,野生型bZIP在结合同源AP-1或非同源位点时诱导出相当水平的α-螺旋结构。因此,非同源位点可能在结合靶DNA位点之前有助于稳定蛋白质结构的预组装。这项工作表明,bZIP支架可能是设计具有所需DNA识别特性的小型α-螺旋蛋白的有力工具。