Yanagi Ken-ichiro, Mizuno Takeshi, You Zhiying, Hanaoka Fumio
Cellular Physiology Laboratory, RIKEN (The Institute of Physical and Chemical Research) and CREST, Japan Science and Technology Corporation, Wako, Saitama 351-0198, Japan.
J Biol Chem. 2002 Oct 25;277(43):40871-80. doi: 10.1074/jbc.M206202200. Epub 2002 Aug 20.
DNA replication is controlled by the stepwise assembly of a pre-replicative complex and the replication apparatus. Cdt1 is a novel component of the pre-replicative complex and plays a role in loading the minichromosome maintenance (MCM) 2-7 complex onto chromatin. Cdt1 activity is inhibited by geminin, which is essential for the G(2)/M transition in metazoan cells. To understand the molecular basis of the Cdt1-geminin regulatory mechanism in mammalian cells, we cloned and expressed the mouse Cdt1 homologue cDNA in bacterial cells and purified mouse Cdt1 to near homogeneity. We found by yeast two-hybrid analysis that mouse Cdt1 associates with geminin, MCM6, and origin recognition complex 2. MCM6 interacts with the Cdt1 carboxyl-terminal region (amino acids 407-477), which is conserved among eukaryotes, whereas geminin associates with the Cdt1 central region (amino acids 177-380), which is conserved only in metazoans. In addition, we found that Cdt1 can bind DNA in a sequence-, strand-, and conformation-independent manner. The Cdt1 DNA binding domain overlaps with the geminin binding domain, and the binding of Cdt1 to DNA is inhibited by geminin. Taken together, we have defined structural domains and novel biochemical properties for mouse Cdt1 that suggest that Cdt1 behaves as an intrinsic DNA binding factor in the pre-replicative complex.
DNA复制由复制前复合体和复制装置的逐步组装所控制。Cdt1是复制前复合体的一个新组分,在将微小染色体维持(MCM)2 - 7复合体加载到染色质上发挥作用。Cdt1的活性受到geminin的抑制,geminin对于后生动物细胞中的G(2)/M期转换至关重要。为了理解哺乳动物细胞中Cdt1 - geminin调控机制的分子基础,我们在细菌细胞中克隆并表达了小鼠Cdt1同源物cDNA,并将小鼠Cdt1纯化至近乎均一。我们通过酵母双杂交分析发现,小鼠Cdt1与geminin、MCM6和起始识别复合体2相互作用。MCM6与Cdt1的羧基末端区域(氨基酸407 - 477)相互作用,该区域在真核生物中保守,而geminin与Cdt1的中央区域(氨基酸177 - 380)相互作用,该区域仅在后生动物中保守。此外,我们发现Cdt1能够以序列、链和构象非依赖的方式结合DNA。Cdt1的DNA结合结构域与geminin结合结构域重叠,并且geminin抑制Cdt1与DNA的结合。综上所述,我们已经确定了小鼠Cdt1的结构域和新的生化特性,这表明Cdt1在复制前复合体中作为一种内在的DNA结合因子发挥作用。
