crispr相关转座子的宏基因组发现

James R. Rybarski, Kuang Hu, A. Hill, C. Wilke, Ilya J. Finkelstein
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引用次数: 29

摘要

CRISPR-Cas系统赋予细菌和古细菌对移动遗传元件的适应性免疫。这些系统还参与其他细胞过程。例如,CRISPR相关的Tn7转座子(cast)已经选择了非核酸酶活性的CRISPR效应蛋白来指导它们的转座。我们对宏基因组数据库进行了生物信息学调查,以发现铸型,包括具有新架构的系统和使用不同CRISPR亚型的系统。我们还描述了一种推测的非tn7 CAST,它可以选择Cas12。我们的发现提出了垂直和水平CAST靶向的机制,并阐明了CAST如何与CRISPR-Cas系统共同进化。crispr相关的Tn7转座子(cast)在rna引导转座中共同选择cas基因。铸型在基因组数据库中极为罕见;最近的调查报道了tn7样转座子可选择I-F型、I-B型和V-K型CRISPR效应子。在这里,我们通过对宏基因组数据库的生物信息学搜索扩大了报道的CAST系统的多样性。我们发现了所有已知投射的架构,包括级联效应器的安排,目标制导模式和最小的V-K系统。我们还描述了采用I-C型和IV型CRISPR-Cas系统的铸型家族。我们对非tn7铸型的研究确定了包括核酸酶死亡Cas12的推定候选铸型。这些系统揭示了CRISPR系统如何与转座共同进化,并扩展了可编程基因编辑工具包。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Metagenomic discovery of CRISPR-associated transposons
Significance CRISPR-Cas systems confer bacteria and archaea with adaptive immunity against mobile genetic elements. These systems also participate in other cellular processes. For example, CRISPR-associated Tn7 transposons (CASTs) have co-opted nuclease-inactive CRISPR effector proteins to guide their transposition. We bioinformatically survey metagenomic databases to uncover CASTs, including systems with new architectures and ones that use distinct CRISPR subtypes. We also describe a putative non-Tn7 CAST that co-opts Cas12. Our findings propose mechanisms for vertical and horizontal CAST targeting and shed light on how CASTs have coevolved with CRISPR-Cas systems. CRISPR-associated Tn7 transposons (CASTs) co-opt cas genes for RNA-guided transposition. CASTs are exceedingly rare in genomic databases; recent surveys have reported Tn7-like transposons that co-opt Type I-F, I-B, and V-K CRISPR effectors. Here, we expand the diversity of reported CAST systems via a bioinformatic search of metagenomic databases. We discover architectures for all known CASTs, including arrangements of the Cascade effectors, target homing modalities, and minimal V-K systems. We also describe families of CASTs that have co-opted the Type I-C and Type IV CRISPR-Cas systems. Our search for non-Tn7 CASTs identifies putative candidates that include a nuclease dead Cas12. These systems shed light on how CRISPR systems have coevolved with transposases and expand the programmable gene-editing toolkit.
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