Romier Christophe, Cocchiarella Fabienne, Mantovani Roberto, Moras Dino
Département de Biologie et Génomique Structurales, Institut de Génétique et de Biologie Moléculaire et Cellulaire, CNRS/INSERM/Université Louis Pasteur, 1 Rue Laurent Fries, B.P. 10142, 67404 Illkirch Cedex, France.
J Biol Chem. 2003 Jan 10;278(2):1336-45. doi: 10.1074/jbc.M209635200. Epub 2002 Oct 24.
The heterotrimeric transcription factor NF-Y recognizes with high specificity and affinity the CCAAT regulatory element that is widely represented in promoters and enhancer regions. The CCAAT box acts in concert with neighboring elements, and its bending by NF-Y is thought to be a major mechanism required for transcription activation. We have solved the structure of the NF-YC/NF-YB subcomplex of NF-Y, which shows that the core domains of both proteins interact through histone fold motifs. This histone-like pair is closely related to the H2A/H2B and NC2alpha/NC2beta families, with features that are both common to this class of proteins and unique to NF-Y. The structure together with the modeling of the nonspecific interaction of NF-YC/NF-YB with DNA and the full NF-Y/CCAAT box complex highlight important structural features that account for different and possibly similar biological functions of the transcriptional regulators NF-Y and NC2. In particular, it emphasizes the role of the newly described alphaC helix of NF-YC, which is both important for NF-Y trimerization and a target for regulatory proteins, such as MYC and p53.
异源三聚体转录因子NF-Y以高特异性和亲和力识别在启动子和增强子区域广泛存在的CCAAT调控元件。CCAAT框与相邻元件协同作用,并且NF-Y使其弯曲被认为是转录激活所需的主要机制。我们解析了NF-Y的NF-YC/NF-YB亚复合物的结构,该结构表明这两种蛋白质的核心结构域通过组蛋白折叠基序相互作用。这种类组蛋白对与H2A/H2B和NC2α/NC2β家族密切相关,具有这类蛋白质共有的特征以及NF-Y特有的特征。该结构连同NF-YC/NF-YB与DNA的非特异性相互作用以及完整的NF-Y/CCAAT框复合物的模型突出了重要的结构特征,这些特征解释了转录调节因子NF-Y和NC2不同的以及可能相似的生物学功能。特别是,它强调了新描述的NF-YC的αC螺旋的作用,该螺旋对于NF-Y三聚化很重要,并且是诸如MYC和p53等调节蛋白的作用靶点。
