对细菌中的 RNA 进行 APEX2 近距离标记

Hadi Yassine, Jared M Schrader
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引用次数: 0

摘要

研究细菌细胞中的 RNA 定位需要快速的空间控制方法。APEX2 近距离标记被证明可用于真核细胞中的快速 RNA 标记,通过将 APEX2 与靶向于不同亚细胞位置的不同蛋白融合,可用于鉴定这些细胞中的 RNA 定位。因此,我们通过将 APEX2 与 RNase E 基因融合,将 RNA 的 APEX2 近距离标记技术应用于细菌细胞,RNase E 基因是 BR 体形成的必要条件和充分条件。APEX2 融合的扰动极小,而且 RNA 可以用 Alkyne-Phenol 在亚分钟级的时间内快速标记,超过了细菌中 mRNA 的快速衰变速度。Alkyne-Phenol 为整个下游应用提供了灵活性,铜催化的点击化学可用于下游应用,如用于纯化的荧光染料叠氮化物或生物素叠氮化物。总之,APEX2 RNA 近距离标记为研究细菌中的 RNA 定位提供了一种有用的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
APEX2 proximity labeling of RNA in bacteria
Rapid spatially controlled methods are needed to investigate RNA localization in bacterial cells. APEX2 proximity labeling was shown to be adaptable to rapid RNA labeling in eukaryotic cells, and through the fusion of APEX2 to different proteins targeted to different subcellular locations, has been useful to identify RNA localization in these cells. Therefore, we adapted APEX2 proximity labeling of RNA to bacterial cells by generating an APEX2 fusion to the RNase E gene, which is necessary and sufficient for BR-body formation. APEX2 fusion is minimally perturbative and RNA can be rapidly labeled on the sub-minute timescale with Alkyne-Phenol, outpacing the rapid speed of mRNA decay in bacteria. Alkyne-Phenol provides flexibility in the overall downstream application with copper catalyzed click-chemistry for downstream applications, such as fluorescent dye-azides or biotin-azides for purification. Altogether, APEX2 proximity labeling of RNA provides a useful method for studying RNA localization in bacteria.
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