Multi-analyte responsive luminescent probes for the detection of biochemical targets in cell models

Anna Wychowaniec, Francesca Canyelles i Font, Masroor Ahmed Khan, MIchał Gładysz, Dorota Kwiatek, Jacek L Kolanowski
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Abstract

Luminescence has found wide application in biology, biotechnology and medicine. Particularly, fluorescent and bioluminescent probes allow visualization of molecular targets at the cellular level and even macromolecules or single small-molecule analytes. Among the most reliable tools for visualization of molecular targets are so-called responsive probes, which change the intensity and colour of the emitted signal after interaction with a molecular target. The majority of such probes allow detection of a single analyte. Meanwhile, most of the processes in the human body involve multiple elements. To better understand these mechanisms, it is possible to use several responsive probes simultaneously. However, this poses a risk of their different uptake by cells or different metabolism. In order to provide a more reliable response, so-called multi-analyte and multi-responsive probes are being developed. Examples of such probes will be discussed in the article, divided based on their response mechanism and detected changes within the cell.
用于检测细胞模型中生化目标的多分析物反应发光探针
发光技术在生物学、生物技术和医学领域有着广泛的应用。特别是,荧光和生物发光探针可以使细胞水平的分子目标,甚至是大分子或单个小分子分析物可视化。分子靶标可视化最可靠的工具是所谓的反应探针,这种探针在与分子靶标相互作用后,发射信号的强度和颜色都会发生变化。大多数此类探针都能检测单个分析物。与此同时,人体内的大多数过程都涉及多种元素。为了更好地了解这些机制,可以同时使用多种反应探针。然而,这样做的风险在于细胞对这些探针的吸收不同或新陈代谢不同。为了提供更可靠的响应,目前正在开发所谓的多分析和多响应探针。本文将根据探针的反应机制和检测到的细胞内变化来讨论这类探针的例子。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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