Label-free fluorescence microscopy: revisiting the opportunities with autofluorescent molecules and harmonic generations as biosensors and biomarkers for quantitative biology.

IF 4.9 Q1 BIOPHYSICS Biophysical reviews Pub Date : 2023-06-26 eCollection Date: 2023-08-01 DOI:10.1007/s12551-023-01083-4
María José García, Andrés Kamaid, Leonel Malacrida
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Abstract

Over the past decade, the utilization of advanced fluorescence microscopy technologies has presented numerous opportunities to study or re-investigate autofluorescent molecules and harmonic generation signals as molecular biomarkers and biosensors for in vivo cell and tissue studies. The label-free approaches benefit from the endogenous fluorescent molecules within the cell and take advantage of their spectroscopy properties to address biological questions. Harmonic generation can be used as a tool to identify the occurrence of fibrillar or lipid deposits in tissues, by using second and third-harmonic generation microscopy. Combining autofluorescence with novel techniques and tools such as fluorescence lifetime imaging microscopy (FLIM) and hyperspectral imaging (HSI) with model-free analysis of phasor plots has revolutionized the understanding of molecular processes such as cellular metabolism. These tools provide quantitative information that is often hidden under classical intensity-based microscopy. In this short review, we aim to illustrate how some of these technologies and techniques may enable investigation without the need to add a foreign fluorescence molecule that can modify or affect the results. We address some of the most important autofluorescence molecules and their spectroscopic properties to illustrate the potential of these combined tools. We discuss using them as biomarkers and biosensors and, under the lens of this new technology, identify some of the challenges and potentials for future advances in the field.

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无标记荧光显微镜:重新审视自发荧光分子和谐波发生器作为定量生物学生物传感器和生物标记的机遇。
在过去的十年中,先进荧光显微技术的应用为研究或重新研究自发荧光分子和谐波发生信号提供了大量机会,可将其作为分子生物标记和生物传感器用于体内细胞和组织研究。无标记方法受益于细胞内的内源性荧光分子,并利用其光谱特性来解决生物问题。利用二次和三次谐波发生显微镜,谐波发生可用作识别组织中纤维或脂质沉积的工具。将自发荧光与荧光寿命成像显微镜(FLIM)和高光谱成像(HSI)等新型技术和工具相结合,并对相位图进行无模型分析,彻底改变了对细胞代谢等分子过程的理解。这些工具提供的定量信息往往隐藏在传统的基于强度的显微镜下。在这篇简短的综述中,我们旨在说明其中一些技术和技巧如何能够在无需添加外来荧光分子的情况下进行研究,而外来荧光分子可能会改变或影响研究结果。我们将讨论一些最重要的自发荧光分子及其光谱特性,以说明这些组合工具的潜力。我们讨论了将它们用作生物标记和生物传感器的问题,并从这一新技术的角度指出了该领域未来发展的一些挑战和潜力。
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来源期刊
Biophysical reviews
Biophysical reviews Biochemistry, Genetics and Molecular Biology-Biophysics
CiteScore
8.90
自引率
0.00%
发文量
93
期刊介绍: Biophysical Reviews aims to publish critical and timely reviews from key figures in the field of biophysics. The bulk of the reviews that are currently published are from invited authors, but the journal is also open for non-solicited reviews. Interested authors are encouraged to discuss the possibility of contributing a review with the Editor-in-Chief prior to submission. Through publishing reviews on biophysics, the editors of the journal hope to illustrate the great power and potential of physical techniques in the biological sciences, they aim to stimulate the discussion and promote further research and would like to educate and enthuse basic researcher scientists and students of biophysics. Biophysical Reviews covers the entire field of biophysics, generally defined as the science of describing and defining biological phenomenon using the concepts and the techniques of physics. This includes but is not limited by such areas as: - Bioinformatics - Biophysical methods and instrumentation - Medical biophysics - Biosystems - Cell biophysics and organization - Macromolecules: dynamics, structures and interactions - Single molecule biophysics - Membrane biophysics, channels and transportation
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