Generation of αGFP-nanobodies suitable for super-resolution imaging of nuclear proteins

Student Undergraduate Research E-journal Pub Date : 2018-11-09 DOI:10.25609/SURE.V4.2833
N. Bachmann
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Abstract

The emergence of single molecule localization microscopy (SMLM) techniques made the imaging of cells at resolutions far beyond the diffraction barrier possible. However, the usual approach of tagging a protein of interest (PoI) with a primary antibody, and tagging this one with a fluorophore-carrying secondary antibody, introduces a significant displacement of the signal from the PoI. Here, the generation and application of an αGFP-nanobody is described which, through its reduced size and direct fluorophore labeling, leads to a much higher co-localization of signal and PoI and qualifies for dSTORM imaging of nuclear proteins.
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生成适合核蛋白超分辨率成像的α gfp纳米体
单分子定位显微镜(SMLM)技术的出现使得细胞成像的分辨率远远超过衍射障碍成为可能。然而,通常用一抗标记感兴趣蛋白(PoI),并用携带荧光团的二抗标记这一蛋白的方法,会导致PoI信号的显著位移。本文描述了α gfp纳米体的生成和应用,该纳米体通过其缩小的尺寸和直接荧光团标记,导致信号和PoI的共定位更高,并符合核蛋白的dSTORM成像。
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Student Undergraduate Research E-journal
Student Undergraduate Research E-journal
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