Strunnikov A V, Kingsbury J, Koshland D
Carnegie Institution of Washington, Department of Embryology, Baltimore, Maryland 21210.
J Cell Biol. 1995 Mar;128(5):749-60. doi: 10.1083/jcb.128.5.749.
We have designed a screen to identify mutants specifically affecting kinetochore function in the yeast Saccharomyces cerevisiae. The selection procedure was based on the generation of "synthetic acentric" minichromosomes. "Synthetic acentric" minichromosomes contain a centromere locus, but lack centromere activity due to combination of mutations in centromere DNA and in a chromosomal gene (CEP) encoding a putative centromere protein. Ten conditional lethal cep mutants were isolated, seven were found to be alleles of NDC10 (CEP2) encoding the 110-kD protein of yeast kinetochore. Three mutants defined a novel essential gene CEP3. The CEP3 product (Cep3p) is a 71-kD protein with a potential DNA-binding domain (binuclear Zn-cluster). At nonpermissive temperature the cep3 cells arrest with an undivided nucleus and a short mitotic spindle. At permissive temperature the cep3 cells are unable to support segregation of minichromosomes with mutations in the central part of element III of yeast centromere DNA. These minichromosomes, when isolated from cep3 cultures, fail to bind bovine microtubules in vitro. The sum of genetic, cytological and biochemical data lead us to suggest that the Cep3 protein is a DNA-binding component of yeast centromere. Molecular mass and sequence comparison confirm that Cep3p is the p64 component of centromere DNA binding complex Cbf3 (Lechner, 1994).
我们设计了一种筛选方法,以鉴定在酿酒酵母中特异性影响动粒功能的突变体。筛选程序基于“合成无着丝粒”微型染色体的产生。“合成无着丝粒”微型染色体包含一个着丝粒位点,但由于着丝粒DNA和编码一种假定着丝粒蛋白的染色体基因(CEP)中的突变组合而缺乏着丝粒活性。分离出了10个条件致死性cep突变体,其中7个被发现是编码酵母动粒110-kD蛋白的NDC10(CEP2)的等位基因。3个突变体定义了一个新的必需基因CEP3。CEP3产物(Cep3p)是一种71-kD蛋白,具有潜在的DNA结合结构域(双核锌簇)。在非允许温度下,cep3细胞因细胞核未分裂和有丝分裂纺锤体短而停滞。在允许温度下,cep3细胞无法支持酵母着丝粒DNA元件III中部有突变的微型染色体的分离。这些微型染色体从cep3培养物中分离出来后,在体外无法结合牛微管。遗传、细胞学和生化数据综合表明,Cep3蛋白是酵母着丝粒的一种DNA结合成分。分子量和序列比较证实,Cep3p是着丝粒DNA结合复合物Cbf3的p64成分(Lechner,1994)。