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首页> 外文期刊>Nucleic Acids Research >Primed CRISPR adaptation in Escherichia coli cells does not depend on conformational changes in the Cascade effector complex detected in Vitro
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Primed CRISPR adaptation in Escherichia coli cells does not depend on conformational changes in the Cascade effector complex detected in Vitro

机译:在大肠杆菌细胞中的灌注Crisprp适应不依赖于体外检测到的级联效应复合物的构象变化

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摘要

In type I CRISPR-Cas systems, primed adaptation of new spacers into CRISPR arrays occurs when the effector Cascade-crRNA complex recognizes imperfectly matched targets that are not subject to efficient CRISPR interference. Thus, primed adaptation allows cells to acquire additional protection against mobile genetic elements that managed to escape interference. Biochemical and biophysical studies suggested that Cascade-crRNA complexes formed on fully matching targets (subject to efficient interference) and on partially mismatched targets that promote primed adaption are structurally different. Here, we probed Escherichia coli Cascade-crRNA complexes bound to matched and mismatched DNA targets using a magnetic tweezers assay. Significant differences in complex stabilities were observed consistent with the presence of at least two distinct conformations. Surprisingly, in vivo analysis demonstrated that all mismatched targets stimulated robust primed adaptation irrespective of conformational states observed in vitro. Our results suggest that primed adaptation is a direct consequence of a reduced interference efficiency and/or rate and is not a consequence of distinct effector complex conformations on target DNA.
机译:在I型CRISPR-CAS系统中,当效应CASCADE-CRRNA复合物识别不受高效的克切者干扰的靶向匹配的目标时,将新间隔物的映自​​适应新的间隔物改进进入CRISPR阵列。因此,突出的适应允许细胞获取额外的保护,用于逃避干扰的移动遗传元件。生物化学和生物物理学研究表明,在完全匹配的目标(受效干扰的情况下,形成的Cascade-CRRNA复合物和促进灌注灌注适应的部分不匹配的靶标在结构上不同。在此,我们使用磁性镊子测定探测与匹配和错配的DNA靶结合的大肠杆菌级联-CRRNA复合物。观察到复杂稳定性的显着差异与至少两个不同构象的存在一致。令人惊讶的是,体内分析证明,无论在体外观察到的构象状态,所有不匹配的目标都刺激了稳健的预备适应。我们的研究结果表明,引发的适应性是减少干扰效率和/或速率的直接后果,并且不是靶DNA上不同的效应复合构象的结果。

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  • 来源
    《Nucleic Acids Research》 |2018年第8期|共12页
  • 作者

    Krivoy Andrey; Rutkauskas Marius; Kuznedelov Konstantin; Musharova Olga; Rouillon Christophe; Severinov Konstantin; Seidel Ralf;

  • 作者单位

    Skolkovo Inst Sci &

    Technol Ctr Data Intens Biomed &

    Biotechnol Moscow 143028 Russia;

    Univ Leipzig Peter Debye Inst Soft Matter Phys Mol Biophys Grp D-04103 Leipzig Germany;

    Rutgers State Univ Waksman Inst Piscataway NJ 08854 USA;

    Skolkovo Inst Sci &

    Technol Ctr Data Intens Biomed &

    Biotechnol Moscow 143028 Russia;

    Univ Leipzig Peter Debye Inst Soft Matter Phys Mol Biophys Grp D-04103 Leipzig Germany;

    Skolkovo Inst Sci &

    Technol Ctr Data Intens Biomed &

    Biotechnol Moscow 143028 Russia;

    Univ Leipzig Peter Debye Inst Soft Matter Phys Mol Biophys Grp D-04103 Leipzig Germany;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 生物化学;
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