从纯化的 Cas 蛋白体外重组 Cascade 活性,揭示大肠杆菌 CRISPR 级联的生化可塑性。

Sofia Lemak, Greg Brown, Kira S Makarova, Eugene V Koonin, Alexander F Yakunin
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引用次数: 0

摘要

最丰富的簇状规则间隔短回文重复序列(CRISPR)I型系统采用多亚基RNA-蛋白质效应复合体(Cascade),其蛋白质组成和活性各不相同。大肠杆菌的 Cascade 复合物由 11 个蛋白亚基组成,通过 CRISPR RNA(crRNA)结合、原间隔邻接基序(PAM)特异性双链 DNA 靶向、R 环形成和 Cas3 螺旋酶-核酸酶招募以切割靶 DNA 发挥效应物的功能。在这里,我们介绍了从纯化的 Cas 蛋白中重建大肠杆菌级联的生化过程,并分析了它的活性,包括 crRNA 结合、dsDNA 靶向、R-环形成和 Cas3 招募。6His标记的Cas7与未标记的Cas5共表达的亲和纯化揭示了这些蛋白的物理结合,从而产生了Cas5-Cas7亚复合物,它能够特异性地与I-E型crRNA结合,其效率与完整级联的效率相当。研究发现,装载了crRNA的Cas5-7能以不依赖于PAM的方式特异性地与靶dsDNA结合,尽管亲和力低于完整的Cascade,但间隔序列互补性和重复柄都有助于DNA靶向特异性。加载了crRNA的Cas5-7靶向互补的dsDNA,可检测到R环的形成,Cas8和/或Cas11的加入协同刺激了R环的形成。利用纯化的 Cas5-7 和其他 Cas 蛋白进行的级联活性重组表明,Cas8 是特异性 PAM 识别所必需的,而 Cas11 是 Cas3 招募和靶 DNA 挑断所必需的。因此,尽管核心 Cas5-7 亚复合物足以实现特异性 crRNA 结合和基本 DNA 靶向,但 Cas8 和 Cas11 都对高效靶向识别和裂解做出了独特的贡献。
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Biochemical plasticity of the Escherichia coli CRISPR Cascade revealed by in vitro reconstitution of Cascade activities from purified Cas proteins.

The most abundant clustered regularly interspaced short palindromic repeats (CRISPR) type I systems employ a multisubunit RNA-protein effector complex (Cascade), with varying protein composition and activity. The Escherichia coli Cascade complex consists of 11 protein subunits and functions as an effector through CRISPR RNA (crRNA) binding, protospacer adjacent motif (PAM)-specific double-stranded DNA targeting, R-loop formation, and Cas3 helicase-nuclease recruitment for target DNA cleavage. Here, we present a biochemical reconstruction of the E. coli Cascade from purified Cas proteins and analyze its activities including crRNA binding, dsDNA targeting, R-loop formation, and Cas3 recruitment. Affinity purification of 6His-tagged Cas7 coexpressed with untagged Cas5 revealed the physical association of these proteins, thus producing the Cas5-Cas7 subcomplex that was able to bind specifically to type I-E crRNA with an efficiency comparable to that of the complete Cascade. The crRNA-loaded Cas5-7 was found to bind specifically to the target dsDNA in a PAM-independent manner, albeit with a lower affinity than the complete Cascade, with both spacer sequence complementarity and repeat handles contributing to the DNA targeting specificity. The crRNA-loaded Cas5-7 targeted the complementary dsDNA with detectable formation of R-loops, which was stimulated by the addition of Cas8 and/or Cas11 acting synergistically. Cascade activity reconstitution using purified Cas5-7 and other Cas proteins showed that Cas8 was essential for specific PAM recognition, whereas the addition of Cas11 was required for Cas3 recruitment and target DNA nicking. Thus, although the core Cas5-7 subcomplex is sufficient for specific crRNA binding and basal DNA targeting, both Cas8 and Cas11 make unique contributions to efficient target recognition and cleavage.

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