Highly Selective and Rapid “Turn-On” Fluorogenic Chemosensor for Detection of Salicylic Acid in Plants and Food Samples

Chen, Jie-Ying; Tang, A-Ling; Yang, Ping; Yang, Lin-Lin; Tan, Shuai; Ma, Wen-Jing; Liu, Shi-Tao; Huang, Hou-Yun; Zhou, Xiang; Liu, Li-Wei; Yang, Song

doi:10.1021/acssensors.3c00159

ACS Sens.

2023

DOI: 10.1021/acssensors.3c00159

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Highly Selective and Rapid “Turn-On” Fluorogenic Chemosensor for Detection of Salicylic Acid in Plants and Food Samples

Jie-Ying Chen,

A-Ling Tang,

Ping Yang

et al.

Abstract: Salicylic acid (SA) is one of the chemical molecules, involved in plant growth and immunity, thereby contributing to the control of pests and pathogens, and even applied in fruit and vegetable preservation. However, only a few tools have ever been designed or executed to understand the physiological processes induced by SA or its function in plant immunity and residue detection in food. Hence, three Rh6G-based fluorogenic chemosensors were synthesized to detect phytohormone SA based on the "OFF−ON" mechanism. … Show more

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2024

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Cited by 6 publications

References 44 publications

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Small‐Molecule Fluorescent Probes for Plant Hormones and their Receptors

Lin,

Xiong,

Zhou

et al. 2024

Analysis & Sensing

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Plant hormones and their receptors play a crucial role in regulating plant growth and adapting to the stress environment. The exploration of interaction between plant hormones and their receptors is significant to comprehend the molecular mechanisms of plant growth and development, the response mechanisms of adaptation to environmental changes, and to optimize the traits and stress‐resistance of crops. Since the biosynthesis, transport, and metabolism of hormones in plants are closely relevant to spatio‐temporal changes, and their content and distribution are highly dynamic, there is an urgent need for a qualitative and quantitative tool to accurately, real‐time, and in situ monitor the dynamic changes of hormones in plants without injury. Fluorescent probes have been widely used in the sensing and imaging of plant hormones and their receptors, due to their high spatio‐temporal resolution, high selectivity, non‐invasive, high sensitivity, and tailored molecular structures. Here, this paper provides a systematical overview of the research progress in the sensing and imaging of plant hormones and their receptors using fluorescent probes. In addition, the potential prospects and remaining challenges are also discussed to design fluorescent probes with better performance and promote the development of this field.

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Small‐Molecule Fluorescent Probes for Plant Hormones and their Receptors

Lin,

Xiong,

Zhou

et al. 2024

Analysis & Sensing

View full text Add to dashboard Cite

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Highly CPL-active liquid crystals based on the covalent bond linkage with R-binaphthyl and cyanostilbene

Feng,

Zheng,

Zhang

et al. 2024

Dyes and Pigments

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Construction of rhodamine-based fluorescent sensor for fast, on-site quantitative detection of hazardous salicylic acid in practical sample analysis

Liu,

Zhang,

Tan

et al. 2024

Food Chemistry: X

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Highly Selective and Rapid “Turn-On” Fluorogenic Chemosensor for Detection of Salicylic Acid in Plants and Food Samples

Cited by 6 publications

References 44 publications

Small‐Molecule Fluorescent Probes for Plant Hormones and their Receptors

Small‐Molecule Fluorescent Probes for Plant Hormones and their Receptors

Highly CPL-active liquid crystals based on the covalent bond linkage with R-binaphthyl and cyanostilbene

Construction of rhodamine-based fluorescent sensor for fast, on-site quantitative detection of hazardous salicylic acid in practical sample analysis

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