Okinawa Institute and Science Technology Promotion Corporation, 1919-1 Tancha, Onna-son, Kunigami, Okinawa 904-0412, Japan.
J Cell Sci. 2011 Jun 1;124(Pt 11):1795-807. doi: 10.1242/jcs.078733. Epub 2011 May 3.
Condensin is a conserved protein complex that functions in chromosome condensation and segregation. It has not been previously unequivocally determined whether condensin is required throughout mitosis. Here, we examined whether Schizosaccharomyces pombe condensin continuously acts on chromosomes during mitosis and compared its role with that of DNA topoisomerase II (Top2). Using double mutants containing a temperature-sensitive allele of the condensin SMC2 subunit cut14 (cut14-208) or of top2, together with the cold-sensitive nda3-KM311 mutation (in β-tubulin), temperature-shift experiments were performed. These experiments allowed inactivation of condensin or Top2 at various stages throughout mitosis, even after late anaphase. The results established that mitotic chromosomes require condensin and Top2 throughout mitosis, even in telophase. We then showed that the Cnd2 subunit of condensin (also known as Barren) is the target subunit of Aurora-B-like kinase Ark1 and that Ark1-mediated phosphorylation of Cnd2 occurred throughout mitosis. The phosphorylation sites in Cnd2 were determined by mass spectrometry, and alanine and glutamate residue replacement mutant constructs for these sites were constructed. Alanine substitution mutants of Cnd2, which mimic the unphosphorylated protein, exhibited broad mitotic defects, including at telophase, and overexpression of these constructs caused a severe dominant-negative effect. By contrast, glutamate substitution mutants, which mimic the phosphorylated protein, alleviated the segregation defect in Ark1-inhibited cells. In telophase, the condensin subunits in cut14-208 mutant accumulated in lumps that contained telomeric DNA and proteins that failed to segregate. Condensin might thus serve to keep the segregated chromosomes apart during telophase.
凝聚素是一种保守的蛋白质复合物,在染色体浓缩和分离中发挥作用。以前尚未明确确定凝聚素是否在整个有丝分裂过程中都需要。在这里,我们研究了是否 Schizosaccharomyces pombe 凝聚素在有丝分裂期间连续作用于染色体,并将其作用与 DNA 拓扑异构酶 II(Top2)进行了比较。使用包含温度敏感型 SMC2 亚基 cut14(cut14-208)的凝聚素或 top2 的双突变体,以及冷敏感的 nda3-KM311 突变(在β-微管蛋白中),进行了温度转换实验。这些实验允许在有丝分裂的各个阶段(甚至在后期末期之后)失活凝聚素或 Top2。结果表明,有丝分裂染色体在有丝分裂过程中甚至在末期都需要凝聚素和 Top2。然后,我们表明凝聚素的 Cnd2 亚基(也称为 Barren)是 Aurora-B 样激酶 Ark1 的靶亚基,并且 Ark1 介导的 Cnd2 磷酸化发生在整个有丝分裂过程中。通过质谱法确定了 Cnd2 中的磷酸化位点,并构建了这些位点的丙氨酸和谷氨酸残基替换突变体构建体。Cnd2 的丙氨酸替换突变体,模拟未磷酸化的蛋白质,表现出广泛的有丝分裂缺陷,包括在末期,并且这些构建体的过表达导致严重的显性负效应。相比之下,模拟磷酸化蛋白质的谷氨酸替换突变体减轻了在 Ark1 抑制细胞中分离缺陷。在末期,cut14-208 突变体中的凝聚素亚基聚集在包含端粒 DNA 和未能分离的蛋白质的团块中。因此,凝聚素可能在末期将分离的染色体分开。
