Dahmann C, Diffley J F, Nasmyth K A
I.M.P. Research Institute of Molecular Pathology, Vienna, Austria.
Curr Biol. 1995 Nov 1;5(11):1257-69. doi: 10.1016/s0960-9822(95)00252-1.
DNA replication and mitosis are triggered by activation of kinase complexes, each made up of a cyclin and a cyclin-dependent kinase (Cdk). It had seemed possible that the association of Cdks with different classes of cyclins specifies whether S phase (replication) or M phase (mitosis) will occur. The recent finding that individual B-type cyclins (encoded by the genes CLB1-CLB6) can have functions in both processes in the budding yeast Saccharomyces cerevisiae casts doubt on this notion.
S. cerevisiae strains lacking C1b1-C1b4 undergo DNA replication once but fail to enter mitosis. We have isolated mutations in two genes, SIM1 and SIM2 (SIM2 is identical to SEC72), which allow such cells to undergo an extra round of DNA replication without mitosis. The Clb5 kinase, which promotes S phase, remains active during the G2-phase arrest of cells of the parental strain, but its activity declines rapidly in sim mutants. Increased expression of the CLB5 gene prevents re-replication. Thus, a cyclin B-kinase that promotes DNA replication in G1-phase cells can prevent re-replication in G2-phase cells. Inactivation of C1b kinases by expression of the specific C1b-Cdk1 inhibitor p40SIC1 is sufficient to induce a prereplicative state at origins of replication in cells blocked in G2/M phase by nocodazole. Re-activation of C1b-Cdk1 kinases induces a second round of DNA replication.
We propose that S-phase-promoting cyclin B--Cdk complexes prevent re-replication during S, G2 and M phases by inhibiting the transition of replication origins to a pre-replicative state. This model can explain both why origins 'fire' only once per S phase and why S phase is dependent on completion of the preceding M phase.
DNA复制和有丝分裂由激酶复合物的激活所触发,每个激酶复合物都由一个细胞周期蛋白和一个细胞周期蛋白依赖性激酶(Cdk)组成。曾有观点认为,Cdk与不同类型细胞周期蛋白的结合决定了是发生S期(复制)还是M期(有丝分裂)。最近的研究发现,在芽殖酵母酿酒酵母中,单个B型细胞周期蛋白(由CLB1 - CLB6基因编码)在这两个过程中都发挥作用,这对上述观点提出了质疑。
缺乏Clb1 - Clb4的酿酒酵母菌株进行一次DNA复制后无法进入有丝分裂。我们在两个基因SIM1和SIM2(SIM2与SEC72相同)中分离出了突变,这些突变使此类细胞能够在不进行有丝分裂的情况下额外进行一轮DNA复制。促进S期的Clb5激酶在亲本菌株细胞的G2期停滞期间保持活性,但在sim突变体中其活性迅速下降。CLB5基因表达的增加可防止再次复制。因此,在G1期细胞中促进DNA复制的细胞周期蛋白B - 激酶可在G2期细胞中防止再次复制。通过表达特异性的Clb - Cdk1抑制剂p40SIC1使Clb激酶失活,足以在被诺考达唑阻断在G2/M期的细胞的复制起点处诱导出复制前状态。Clb - Cdk1激酶的重新激活会诱导第二轮DNA复制。
我们提出,促进S期的细胞周期蛋白B - Cdk复合物通过抑制复制起点向复制前状态的转变,在S期、G2期和M期防止再次复制。该模型既可以解释为什么每个S期复制起点只“激发”一次,也可以解释为什么S期依赖于前一个M期的完成。
