SpRY Cas9 变体释放 PAM 序列约束,在模式植物 Physcomitrium patens 中进行基因组编辑

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-04-04 DOI:10.1007/s11248-024-00381-1
Julie Calbry, Guillaume Goudounet, Florence Charlot, Anouchka Guyon-Debast, Pierre-François Perroud, Fabien Nogué
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引用次数: 0

摘要

通过 CRISPR/Cas 进行基因组编辑,可以对包括植物在内的各种物种进行有针对性的基因改造。与 SpCas9 等 Cas 核酸酶一样,靶基因附近需要特定的原位相邻基序(PAM),这限制了它的应用。无 PAM SpCas9 变体的设计放宽了对 PAM 的要求,扩大了靶向选择范围。然而,这些所谓的无 PAM SpCas9 仍然会因 PAM 的不同而显示出不同的编辑效率,而且其效率落后于原生 SpCas9。在这里,我们评估了无PAM SpCas9变体在模式植物Physcomitrium patens中进行基因组编辑的潜力。为此,我们开发了一种 SpRYCas9i 变体,对其表达进行了优化,并使用 APT 作为报告基因对其编辑效率进行了测试。我们发现,接近无 PAM 的 SpRYCas9i 能有效识别 P. patens 中原生 SpCas9 无法识别或识别率较低的特定 PAM。使用 SpRYCas9i 发现的突变模式与使用 SpCas9 发现的突变模式相似,而且我们在这项研究中测试的 sgRNA 没有检测到脱靶活性。这些发现有助于推动植物多功能基因组编辑技术的发展。
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The SpRY Cas9 variant release the PAM sequence constraint for genome editing in the model plant Physcomitrium patens

Genome editing via CRISPR/Cas has enabled targeted genetic modifications in various species, including plants. The requirement for specific protospacer-adjacent motifs (PAMs) near the target gene, as seen with Cas nucleases like SpCas9, limits its application. PAMless SpCas9 variants, designed with a relaxed PAM requirement, have widened targeting options. However, these so-call PAMless SpCas9 still show variation of editing efficiency depending on the PAM and their efficiency lags behind the native SpCas9. Here we assess the potential of a PAMless SpCas9 variant for genome editing in the model plant Physcomitrium patens. For this purpose, we developed a SpRYCas9i variant, where expression was optimized, and tested its editing efficiency using the APT as a reporter gene. We show that the near PAMless SpRYCas9i effectively recognizes specific PAMs in P. patens that are not or poorly recognized by the native SpCas9. Pattern of mutations found using the SpRYCas9i are similar to the ones found with the SpCas9 and we could not detect off-target activity for the sgRNAs tested in this study. These findings contribute to advancing versatile genome editing techniques in plants.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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