酿酒酵母后期纺锤体运动所需的两种微管相关蛋白。
Two microtubule-associated proteins required for anaphase spindle movement in Saccharomyces cerevisiae.
作者信息
Pellman D, Bagget M, Tu Y H, Fink G R, Tu H
机构信息
Whitehead Institute for Biomedical Research, Cambridge, Massachusetts 02142, USA.
出版信息
J Cell Biol. 1995 Sep;130(6):1373-85. doi: 10.1083/jcb.130.6.1373.
Abstract
In many eucaryotic cells, the midzone of the mitotic spindle forms a distinct structure containing a specific set of proteins. We have isolated ASE1, a gene encoding a component of the Saccharomyces cerevisiae spindle midzone. Strains lacking both ASE1 and BIK1, which encodes an S. cerevisiae microtubule-associated protein, are inviable. The analysis of the phenotype of a bik1 ase1 conditional double mutant suggests that BIK1 and ASE1 are not required for the assembly of a bipolar spindle, but are essential for anaphase spindle elongation. The steady-state levels of Ase1p are regulated in a manner that is consistent with a function during anaphase: they are low in G1, accumulate to maximal levels after S phase and then drop as cells exit mitosis. Components of the spindle midzone may therefore be required in vivo for anaphase spindle movement. Additionally, anaphase spindle movement may depend on a dedicated set of genes whose expression is induced at G2/M.
摘要
在许多真核细胞中,有丝分裂纺锤体的中间区形成一种独特的结构,其中包含一组特定的蛋白质。我们分离出了ASE1,这是一个编码酿酒酵母纺锤体中间区一种成分的基因。同时缺失ASE1和BIK1(编码一种酿酒酵母微管相关蛋白)的菌株无法存活。对bik1 ase1条件性双突变体表型的分析表明,BIK1和ASE1对于双极纺锤体的组装并非必需,但对于后期纺锤体的延长至关重要。Ase1p的稳态水平以一种与后期功能一致的方式受到调节:它们在G1期较低,在S期后积累到最高水平,然后随着细胞退出有丝分裂而下降。因此,纺锤体中间区的成分在体内可能是后期纺锤体移动所必需的。此外,后期纺锤体移动可能依赖于一组在G2/M期被诱导表达的特定基因。
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