Two Key Substitutions in the Chromophore Environment of mKate2 Produce an Enhanced FusionRed-like Red Fluorescent Protein.

IF 2 4区 生物学 Q4 CELL BIOLOGY
D A Ruchkin, A S Gavrikov, D V Kolesov, A Yu Gorokhovatsky, T V Chepurnykh, A S Mishin, E G Maksimov, N V Pletneva, V Z Pletnev, A M Pavlova, V A Nikitin, A M Bogdanov
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引用次数: 0

Abstract

Red fluorescent proteins (RFPs) are often probes of choice for living tissue microscopy and whole-body imaging. When choosing a specific RFP variant, the priority may be given to the fluorescence brightness, maturation rate, monomericity, excitation/emission wavelengths, and low toxicity, which are rarely combined in an optimal way in a single protein. If additional requirements such as prolonged fluorescence lifetime and/or blinking ability are applied, the available repertoire of probes could dramatically narrow. Since the entire diversity of conventional single-component RFPs belongs to just a few phylogenetic lines (DsRed-, eqFP578- and eqFP611-derived being the major ones), it is not unexpected that their advantageous properties are split between close homologs. In such cases, a systematic mutagenetic analysis focusing on variant-specific amino acid residues can shed light on the origins of the distinctness between related RFPs and may aid in consolidating their strengths in new RFP variants. For instance, the protein FusionRed, despite being efficient in fluorescence labeling thanks to its good monomericity and low cytotoxicity, has undergone considerable loss in fluorescence brightness/lifetime compared to the parental mKate2. In this contribution, we describe a fast-maturing monomeric RFP designed semi-rationally based on the mKate2 and FusionRed templates that outperforms both its parents in terms of molecular brightness, has extended fluorescence lifetime, and displays a spontaneous blinking pattern that is promising for nanoscopy use.

Abstract Image

Abstract Image

Abstract Image

mKate2发色团环境中的两个关键替换产生增强的fusionred样红色荧光蛋白。
红色荧光蛋白(rfp)通常是活体组织显微镜和全身成像的首选探针。在选择特定的RFP变体时,可能会优先考虑荧光亮度、成熟率、单体性、激发/发射波长和低毒性,这些因素很少在单个蛋白质中以最佳方式组合。如果有额外的要求,如延长荧光寿命和/或闪烁能力,可用的探针库可能会大大缩小。由于传统单组分rfp的整个多样性只属于少数系统发育系(主要是DsRed-, eqFP578-和eqfp611衍生),因此它们的优势特性在接近的同源物之间分裂并不意外。在这种情况下,对变异特异性氨基酸残基进行系统的诱变分析可以阐明相关RFP之间差异的起源,并可能有助于巩固它们在新RFP变体中的优势。例如,蛋白FusionRed,尽管由于其良好的单体性和低细胞毒性而具有高效的荧光标记,但与亲本mKate2相比,其荧光亮度/寿命损失相当大。在这篇文章中,我们描述了一种快速成熟的单体RFP,该RFP基于mKate2和FusionRed模板进行半理性设计,在分子亮度方面优于其亲本,延长了荧光寿命,并显示出自发闪烁模式,有望用于纳米显微镜。
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来源期刊
Acta Naturae
Acta Naturae 农林科学-林学
CiteScore
3.50
自引率
5.00%
发文量
0
审稿时长
>12 weeks
期刊介绍: Acta Naturae is an international journal on life sciences based in Moscow, Russia. Our goal is to present scientific work and discovery in molecular biology, biochemistry, biomedical disciplines and biotechnology. These fields represent the most important priorities for the research and engineering development both in Russia and worldwide. Acta Naturae is also a periodical for those who are curious in various aspects of biotechnological business, innovations in pharmaceutical areas, intellectual property protection and social consequences of scientific progress. The journal publishes analytical industrial surveys focused on the development of different spheres of modern life science and technology. Being a radically new and totally unique journal in Russia, Acta Naturae is useful to both representatives of fundamental research and experts in applied sciences.
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