Ray J, Shin I, Ilgu M, Bendickson L, Gupta V, Kraus G A, Nilsen-Hamilton M
Cornell University, Ithaca, NY, United States.
National Forensic Service, Seoul, South Korea.
Methods Enzymol. 2016;572:193-213. doi: 10.1016/bs.mie.2016.02.028. Epub 2016 Apr 13.
Cell communications are essential to the organization, development, and maintenance of multicellular organisms. Much of this communication involves changes in RNA transcription and is dynamic. Most methods for studying transcription require interrupting the continuity of cellular function by sacrificing the communicating cells and capturing gene expression information by periodic sampling of individual cells or the population. The IMAGEtag technology to quantify RNA levels in living cells, demonstrated here in yeast, allows individual cells to be tracked over time as they respond to different environmental cues. IMAGEtags are short RNAs consisting of strings of a variable number of tandem aptamers that bind small-molecule ligands. The aptamer strings can vary in length and in configuration of aptamer constituents, such as to contain multiples of the same aptamer or two or more different aptamers that alternate in their occurrence. A minimum effective length is about five aptamers. The maximum length is undefined. The small-molecule ligands are enabled for imaging as fluorophore conjugates. For each IMAGEtag, two fluorophore conjugates are provided, which are FRET pairs. When a cell expresses an RNA containing an IMAGEtag sequence, the aptamers bind their ligands and bring the fluorophores into sufficiently close proximity to allow FRET. The background fluorescence of both fluorophores is minimal in the FRET channel. These features endow IMAGEtags with the sensitivity to report on mRNA expression levels in living cells.
细胞通讯对于多细胞生物的组织、发育和维持至关重要。这种通讯大多涉及RNA转录的变化,且具有动态性。大多数研究转录的方法需要通过牺牲通讯细胞来中断细胞功能的连续性,并通过对单个细胞或细胞群体进行定期采样来获取基因表达信息。本文在酵母中展示的用于量化活细胞中RNA水平的IMAGEtag技术,能够随着时间追踪单个细胞对不同环境线索的反应。IMAGEtags是由可变数量的串联适体组成的短RNA,这些适体可结合小分子配体。适体串的长度以及适体成分的配置可以不同,例如包含相同适体的多个拷贝,或者两个或更多不同适体交替出现。最小有效长度约为五个适体。最大长度未确定。小分子配体作为荧光团缀合物用于成像。对于每个IMAGEtag,提供两个荧光团缀合物,它们是荧光共振能量转移(FRET)对。当细胞表达含有IMAGEtag序列的RNA时,适体结合其配体,并使荧光团足够接近以允许FRET。在FRET通道中,两种荧光团的背景荧光都很低。这些特性使IMAGEtags具有报告活细胞中mRNA表达水平的敏感性。