Zimmerman Jeff M, Maher L James
Department of Biochemistry and Molecular Biology, Mayo Clinic-Rochester, 200 First Street SW, Rochester, MN 55905, USA.
Nucleic Acids Res. 2003 Sep 1;31(17):5134-9. doi: 10.1093/nar/gkg697.
'Indirect readout' refers to the proposal that proteins can recognize the intrinsic three-dimensional shape or flexibility of a DNA binding sequence apart from direct protein contact with DNA base pairs. The differing affinities of human papillomavirus (HPV) E2 proteins for different E2 binding sites have been proposed to reflect indirect readout. DNA bending has been observed in X-ray structures of E2 protein-DNA complexes. X-ray structures of three different E2 DNA binding sites revealed differences in intrinsic curvature. DNA sites with intrinsic curvature in the direction of protein-induced bending were bound more tightly by E2 proteins, supporting the indirect readout model. We now report solution measurements of intrinsic DNA curvature for three E2 binding sites using a sensitive electrophoretic phasing assay. Measured E2 site curvature agrees well the predictions of a dinucleotide model and supports an indirect readout hypothesis for DNA recognition by HPV E2.
“间接读出”指的是这样一种观点:蛋白质能够识别DNA结合序列的固有三维形状或柔韧性,而无需蛋白质与DNA碱基对直接接触。有人提出,人乳头瘤病毒(HPV)E2蛋白对不同E2结合位点的不同亲和力反映了间接读出。在E2蛋白-DNA复合物的X射线结构中观察到了DNA弯曲。三种不同E2 DNA结合位点的X射线结构揭示了固有曲率的差异。在蛋白质诱导弯曲方向上具有固有曲率的DNA位点与E2蛋白结合更紧密,这支持了间接读出模型。我们现在报告使用灵敏的电泳定相分析对三个E2结合位点的固有DNA曲率进行的溶液测量。测得的E2位点曲率与二核苷酸模型的预测非常吻合,并支持HPV E2对DNA识别的间接读出假说。