Xianjin Xiao scite author profile

Nucleic acid fluorescent probes are playing increasingly important roles in biological sensing in recent years. In addition to the conventional functions of single-stranded DNA/RNA to hybridize with their complementary strands, affinity nucleic acids (aptamers) with specific target binding properties have also been developed, which has greatly broadened the application of nucleic acid fluorescent probes to the detection of a large variety of analytes, including small molecules, proteins, ions, and even whole cells. Another chemical property of nucleic acids is to act as substrates for various nucleic acid enzymes. This property can be utilized not only to detect those enzymes and screen their inhibitors, but also employed to develop effective signal amplification systems, which implies extensive applications. This review mainly covers the biosensing methods based on the above three types of nucleic acid fluorescent probes. The most widely used intensity-based biosensing assays are covered first, including nucleic acid probe-based signal amplification methods. Then fluorescence lifetime, fluorescence anisotropy, and fluorescence correlation spectroscopy assays are introduced, respectively. As a rapidly developing field, fluorescence imaging approaches are also briefly summarized.

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In Situ, Real-Time Monitoring of the 3′ to 5′ Exonucleases Secreted by Living Cells

Zhu²,

Zhang³

et al. 2012

Anal. Chem.

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Enzymes containing 3'-5' exonuclease activities play vital roles in maintaining genome stability. Though a wide variety of methods have been developed for detection of these enzymes, few of them can be directly applied for in situ and real-time monitoring of the secretion of these active substances by living cells. Taking advantages of the free 3'-end of stacked guanine-quenched photoinduced electron transfer fluorescent probes, here we demonstrate a novel assay capable of in situ and real-time monitoring of the 3'-5' exonucleases secreted by living cells. The detection limit of the new method achieved as low as 0.04 U/mL, allowing direct monitoring of the target enzymes in an extracellular environment without preconcentration steps. False positive signals caused by other nonspecific enzymes were easily ruled out by the use of a control probe with the 3'-end modified with exonuclease-resistant phosphorothioate guanines. Using Alexa Fluor 488 as the fluorophore, the probe is adaptable to a wide range of pH conditions. The approach was successfully applied for in situ, real-time monitoring of the 3'-5' exonucleases secreted by suspension cells of Arabidopsis thaliana. It also holds great potential for in situ and real-time detection of many other DNA end-processing enzymes produced by other types of cells.

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Enzyme-mediated single-nucleotide variation detection at room temperature with high discrimination factor

Xiao

Zhang

et al. 2015

Chem. Sci.

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Trophoblast-derived Lactic Acid Orchestrates Decidual Macrophage Differentiation via SRC/LDHA Signaling in Early Pregnancy

Xu¹,

Ma²,

Luo³

et al. 2022

Int. J. Biol. Sci.

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Lactic acid (LA) metabolism in the tumor microenvironment contributes to the establishment and maintenance of immune tolerance. This pathway is characterized in tumor associated macrophages. However, the role and pathway of LA metabolism at maternal-fetal interface during early pregnancy, especially in decidual macrophage differentiation, are still unclear. Herein, for the first time, we discovered that LA can trigger either M2 or M1 macrophage polarization via oxidative phosphorylation and glycolysis regulation under normoxia or hypoxia, respectively. Also, LA metabolism played a vital role in decidual macrophages-mediated recurrent pregnancy loss (RPL), through HIF-1α/SRC/LDHA pathway. Moreover, blockade of LA intake with AZD3965 (MCT-1 inhibitor) could rescue pregnancy in an abortion-prone mouse model, suggesting a potential therapeutic target in RPL. Collectively, the present study identifies the previously unknown functions of LA metabolism in the differentiation of decidual macrophages in early normal pregnancy and RPL, and provides a potential therapeutic strategy in RPL by manipulating decidual macrophages' functions through LA metabolic pathway.

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Xianjin Xiao

Nucleic Acid Fluorescent Probes for Biological Sensing

In Situ, Real-Time Monitoring of the 3′ to 5′ Exonucleases Secreted by Living Cells

Enzyme-mediated single-nucleotide variation detection at room temperature with high discrimination factor

Trophoblast-derived Lactic Acid Orchestrates Decidual Macrophage Differentiation via SRC/LDHA Signaling in Early Pregnancy

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