单域近红外蛋白为抗原依赖性荧光纳米抗体提供支架。

Single-domain near-infrared protein provides a scaffold for antigen-dependent fluorescent nanobodies.

机构信息

Medicum, Faculty of Medicine, University of Helsinki, Helsinki, Finland.

Department of Genetics and Gruss-Lipper Biophotonics Center, Albert Einstein College of Medicine, Bronx, NY, USA.

出版信息

Nat Methods. 2022 Jun;19(6):740-750. doi: 10.1038/s41592-022-01467-6. Epub 2022 May 23.

DOI:10.1038/s41592-022-01467-6

PMID:35606446

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9189029/

Abstract

Small near-infrared (NIR) fluorescent proteins (FPs) are much needed as protein tags for imaging applications. We developed a 17 kDa NIR FP, called miRFP670nano3, which brightly fluoresces in mammalian cells and enables deep-brain imaging. By exploring miRFP670nano3 as an internal tag, we engineered 32 kDa NIR fluorescent nanobodies, termed NIR-Fbs, whose stability and fluorescence strongly depend on the presence of specific intracellular antigens. NIR-Fbs allowed background-free visualization of endogenous proteins, detection of viral antigens, labeling of cells expressing target molecules and identification of double-positive cell populations with bispecific NIR-Fbs against two antigens. Applying NIR-Fbs as destabilizing fusion partners, we developed molecular tools for directed degradation of targeted proteins, controllable protein expression and modulation of enzymatic activities. Altogether, NIR-Fbs enable the detection and manipulation of a variety of cellular processes based on the intracellular protein profile.

摘要

小近红外（NIR）荧光蛋白（FPs）是成像应用中作为蛋白标签非常需要的。我们开发了一个 17kDa 的 NIR FP，称为 miRFP670nano3，它在哺乳动物细胞中发出明亮的荧光，能够进行大脑深部成像。通过探索 miRFP670nano3 作为内部标签，我们设计了 32kDa 的 NIR 荧光纳米抗体，称为 NIR-Fbs，其稳定性和荧光强烈依赖于特定的细胞内抗原的存在。NIR-Fbs 允许在没有背景的情况下可视化内源性蛋白，检测病毒抗原，标记表达靶分子的细胞，并使用针对两种抗原的双特异性 NIR-Fbs 鉴定双阳性细胞群体。应用 NIR-Fbs 作为不稳定融合伙伴，我们开发了用于靶向蛋白定向降解、可控蛋白表达和酶活性调节的分子工具。总之，NIR-Fbs 能够基于细胞内蛋白质谱来检测和操纵多种细胞过程。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/774f/9189029/7b185ed00c5c/nihms-1792671-f0001.jpg

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单域近红外蛋白为抗原依赖性荧光纳米抗体提供支架。

Single-domain near-infrared protein provides a scaffold for antigen-dependent fluorescent nanobodies.

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