Department of Biochemistry, University of Wisconsin-Madison, Madison, WI, USA.
Nature. 2022 Aug;608(7924):826-832. doi: 10.1038/s41586-022-05040-1. Epub 2022 Jul 13.
The mammalian DNA polymerase-α-primase (Polα-primase) complex is essential for DNA metabolism, providing the de novo RNA-DNA primer for several DNA replication pathways such as lagging-strand synthesis and telomere C-strand fill-in. The physical mechanism underlying how Polα-primase, alone or in partnership with accessory proteins, performs its complicated multistep primer synthesis function is unknown. Here we show that CST, a single-stranded DNA-binding accessory protein complex for Polα-primase, physically organizes the enzyme for efficient primer synthesis. Cryogenic electron microscopy structures of the CST-Polα-primase preinitiation complex (PIC) bound to various types of telomere overhang reveal that template-bound CST partitions the DNA and RNA catalytic centres of Polα-primase into two separate domains and effectively arranges them in RNA-DNA synthesis order. The architecture of the PIC provides a single solution for the multiple structural requirements for the synthesis of RNA-DNA primers by Polα-primase. Several insights into the template-binding specificity of CST, template requirement for assembly of the CST-Polα-primase PIC and activation are also revealed in this study.
哺乳动物 DNA 聚合酶-α-引发酶(Polα-primase)复合物对于 DNA 代谢至关重要,它为几种 DNA 复制途径提供了新的 RNA-DNA 引物,例如滞后链合成和端粒 C 链填充。Polα-primase 单独或与辅助蛋白一起执行其复杂的多步引物合成功能的物理机制尚不清楚。在这里,我们表明 CST,一种 Polα-primase 的单链 DNA 结合辅助蛋白复合物,可物理组织该酶以实现有效的引物合成。与各种类型的端粒突出端结合的 CST-Polα-primase 起始前复合物(PIC)的低温电子显微镜结构表明,模板结合的 CST 将 Polα-primase 的 DNA 和 RNA 催化中心划分成两个独立的结构域,并有效地将它们排列在 RNA-DNA 合成顺序中。该 PIC 的结构为 Polα-primase 合成 RNA-DNA 引物的多种结构要求提供了单一的解决方案。本研究还揭示了 CST 的模板结合特异性、组装 CST-Polα-primase PIC 和激活的模板要求的一些见解。