一种形成球形细胞核所需的新型膜蛋白复合物。
A novel complex of membrane proteins required for formation of a spherical nucleus.
作者信息
Siniossoglou S, Santos-Rosa H, Rappsilber J, Mann M, Hurt E
机构信息
BZH, Biochemie-Zentrum Heidelberg, Im Neuenheimer Feld 328, D-69120 Heidelberg, Germany.
出版信息
EMBO J. 1998 Nov 16;17(22):6449-64. doi: 10.1093/emboj/17.22.6449.
Abstract
Two membrane proteins were identified through their genetic interaction with the nucleoporin Nup84p and shown to participate in nuclear envelope morphogenesis in yeast. One component is a known sporulation factor Spo7p, and the other, Nem1p, a novel protein whose C-terminal domain is conserved during eukaryotic evolution. Spo7p and Nem1p localize to the nuclear/ER membrane and behave biochemically as integral membrane proteins. Nem1p binds to Spo7p via its conserved C-terminal domain. Although cells without Spo7p or Nem1p are viable, they exhibit a drastically altered nuclear morphology with long, pore-containing double nuclear membrane extensions. These protrusions emanate from a core nucleus which contains the DNA, and penetrate deeply into the cytoplasm. Interestingly, not only Spo7(-) and Nem1(-), but also several nucleoporin mutants are defective in sporulation. Thus, Spo7p and Nem1p, which exhibit a strong genetic link to nucleoporins of the Nup84p complex, fulfil an essential role in formation of a spherical nucleus and meiotic division.
摘要
通过与核孔蛋白Nup84p的遗传相互作用鉴定出两种膜蛋白,并证明它们参与酵母中的核膜形态发生。一个组分是已知的孢子形成因子Spo7p,另一个是Nem1p,一种新型蛋白质,其C末端结构域在真核生物进化过程中保守。Spo7p和Nem1p定位于核/内质网膜,在生化行为上表现为整合膜蛋白。Nem1p通过其保守的C末端结构域与Spo7p结合。虽然没有Spo7p或Nem1p的细胞是有活力的,但它们表现出核形态的急剧改变,具有长的、含孔的双核膜延伸。这些突起从含有DNA的核心细胞核发出,并深入穿透到细胞质中。有趣的是,不仅Spo7(-)和Nem1(-),而且几个核孔蛋白突变体在孢子形成方面也有缺陷。因此,与Nup84p复合物的核孔蛋白表现出强烈遗传联系的Spo7p和Nem1p,在球形细胞核的形成和减数分裂中发挥着重要作用。
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