Structural basis for the type I-F Cas8-HNH system.

Xuzichao Li,Yanan Liu,Jie Han,Lingling Zhang,Zhikun Liu,Lin Wang,Shuqin Zhang,Qian Zhang,Pengyu Fu,Hang Yin,Hongtao Zhu,Heng Zhang
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Abstract

The Cas3 nuclease is utilized by canonical type I CRISPR-Cas systems for processive target DNA degradation, while a newly identified type I-F CRISPR variant employs an HNH nuclease domain from the natural fusion Cas8-HNH protein for precise target cleavage both in vitro and in human cells. Here, we report multiple cryo-electron microscopy structures of the type I-F Cas8-HNH system at different functional states. The Cas8-HNH Cascade complex adopts an overall G-shaped architecture, with the HNH domain occupying the C-terminal helical bundle domain (HB) of the Cas8 protein in canonical type I systems. The Linker region connecting Cas8-NTD and HNH domains adopts a rigid conformation and interacts with the Cas7.6 subunit, enabling the HNH domain to be in a functional position. The full R-loop formation displaces the HNH domain away from the Cas6 subunit, thus activating the target DNA cleavage. Importantly, our results demonstrate that precise target cleavage is dictated by a C-terminal helix of the HNH domain. Together, our work not only delineates the structural basis for target recognition and activation of the type I-F Cas8-HNH system, but also guides further developments leveraging this system for precise DNA editing.
I-F 型 Cas8-HNH 系统的结构基础。
典型的 I 型 CRISPR-Cas 系统利用 Cas3 核酸酶对目标 DNA 进行过程性降解,而新发现的 I-F 型 CRISPR 变体则利用来自天然融合 Cas8-HNH 蛋白的 HNH 核酸酶结构域,在体外和人体细胞中进行精确的目标切割。在这里,我们报告了 I-F 型 Cas8-HNH 系统在不同功能状态下的多个冷冻电镜结构。Cas8-HNH 级联复合物采用整体 G 型结构,在典型的 I 型系统中,HNH 结构域占据 Cas8 蛋白的 C 端螺旋束结构域(HB)。连接 Cas8-NTD 和 HNH 结构域的 Linker 区域采用刚性构象,并与 Cas7.6 亚基相互作用,使 HNH 结构域处于功能性位置。全 R 环的形成使 HNH 结构域远离 Cas6 亚基,从而激活了目标 DNA 的切割。重要的是,我们的研究结果表明,精确的目标切割是由 HNH 结构域的 C 端螺旋决定的。总之,我们的研究工作不仅阐明了 I-F 型 Cas8-HNH 系统识别和激活靶标的结构基础,还为利用该系统进行精确 DNA 编辑的进一步开发提供了指导。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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