Development of destabilized mCherry fluorescent proteins for applications in the model yeast Saccharomyces cerevisiae

Yu Chyuan Heng , Jee Loon Foo
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引用次数: 0

Abstract

Fluorescent proteins are widely used molecular reporters in studying gene expression and subcellular protein localization. To enable the monitoring of transient cellular events in the model yeast Saccharomyces cerevisiae, destabilized green and cyan fluorescent proteins have been constructed. However, their co-utilization is limited by an overlap in their excitation and emission spectra. Although red fluorescent protein is compatible with both green and cyan fluorescent proteins with respect to spectra resolution, a destabilized red fluorescent protein is yet to be constructed for applications in S. cerevisiae. To realize this, we adopted a degron-fusion strategy to prompt destabilization of red fluorescent protein. Specifically, we fused two degrons derived from Cln2, a G1-specific cyclin that mediates cell cycle transition, to the N- or C-terminus of mCherry to generate four destabilized fluorescent proteins that are soluble and functional in S. cerevisiae. Importantly, the four mCherry fluorescent proteins are highly differential with regards to fluorescence half-life and intensity, which provides a greater choice of tools available for the study of dynamic gene expression and transient cellular processes in the model yeast.

不稳定mCherry荧光蛋白在酿酒酵母菌模型中的应用
荧光蛋白是广泛应用于研究基因表达和亚细胞蛋白定位的分子报告蛋白。为了能够监测模型酵母的瞬时细胞事件,构建了不稳定的绿色和青色荧光蛋白。然而,它们的共利用受到激发和发射光谱重叠的限制。尽管红色荧光蛋白与绿色和青色荧光蛋白在光谱分辨率上是兼容的,但尚未构建一种不稳定的红色荧光蛋白用于酿酒酵母。为了实现这一点,我们采用了退化融合策略来促进红色荧光蛋白的不稳定。具体来说,我们将来自介导细胞周期转变的g1特异性周期蛋白Cln2的两个片段融合到mCherry的N端或c端,生成了四个可溶且在酿酒酵母中起作用的不稳定荧光蛋白。重要的是,这四种mCherry荧光蛋白在荧光半衰期和强度方面存在高度差异,这为模型酵母中动态基因表达和瞬时细胞过程的研究提供了更多的工具选择。
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CiteScore
1.70
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