Cdc13 N 端二聚化、DNA 结合和端粒长度调控。

Cdc13 N-terminal dimerization, DNA binding, and telomere length regulation.

机构信息

The Wistar Institute, 3601 Spruce St., Philadelphia, PA 19104, USA.

出版信息

Mol Cell Biol. 2010 Nov;30(22):5325-34. doi: 10.1128/MCB.00515-10. Epub 2010 Sep 13.

DOI:10.1128/MCB.00515-10

PMID:20837709

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2976383/

Abstract

The essential yeast protein Cdc13 facilitates chromosome end replication by recruiting telomerase to telomeres, and together with its interacting partners Stn1 and Ten1, it protects chromosome ends from nucleolytic attack, thus contributing to genome integrity. Although Cdc13 has been studied extensively, the precise role of its N-terminal domain (Cdc13N) in telomere length regulation remains unclear. Here we present a structural, biochemical, and functional characterization of Cdc13N. The structure reveals that this domain comprises an oligonucleotide/oligosaccharide binding (OB) fold and is involved in Cdc13 dimerization. Biochemical data show that Cdc13N weakly binds long, single-stranded, telomeric DNA in a fashion that is directly dependent on domain oligomerization. When introduced into full-length Cdc13 in vivo, point mutations that prevented Cdc13N dimerization or DNA binding caused telomere shortening or lengthening, respectively. The multiple DNA binding domains and dimeric nature of Cdc13 offer unique insights into how it coordinates the recruitment and regulation of telomerase access to the telomeres.

摘要

酵母必需蛋白 Cdc13 通过将端粒酶招募到端粒上来促进染色体末端复制，它与相互作用的伙伴 Stn1 和 Ten1 一起，保护染色体末端免受核酶攻击，从而有助于基因组完整性。尽管 Cdc13 已经被广泛研究，但它的 N 端结构域（Cdc13N）在端粒长度调节中的精确作用仍不清楚。在这里，我们对 Cdc13N 进行了结构、生化和功能表征。结构揭示了该结构域包含一个寡核苷酸/寡糖结合（OB）折叠，并且参与 Cdc13 二聚化。生化数据表明，Cdc13N 以一种直接依赖于结构域寡聚化的方式，弱结合长的、单链的、端粒 DNA。当在体内引入全长 Cdc13 时，阻止 Cdc13N 二聚化或 DNA 结合的点突变分别导致端粒缩短或延长。Cdc13 的多个 DNA 结合结构域和二聚体性质为其如何协调端粒酶对端粒的招募和调节提供了独特的见解。

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